anti friction bearings for pumps

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SKF packaged solutions “pump up” uptime Hydrocarbon processing pumps battle hot, corrosive conditions that eventually defeat bearings and cause premature failure. The resulting downtime costs the industry hundreds of millions of euros a year in maintenance and lost productivity. While you can’t change the harsh operating environments in your facility, you can change the way you defend your pumps – and your operating budget. The SKF pump solution SKF ® offers a “systems approach” of products and services to overcome the heat, contaminants, inadequate lubrication, and shaft misalignment that contribute to bearing failure and pump downtime. Drop-in replacement with SKF Explorer bearings – which can outlast conventional bearings by as much as 300% – is a simple, cost-effective way to extend pump life. Advanced SKF alignment and mounting services help achieve longer bearing life and quieter, smoother pump operation. And SKF automatic lubrication systems and condition monitoring services add another line of defense against pump downtime. Combined with the expertise of the SKF reliability specialists who will help you implement it, this “systems approach” of products and services offers an optimum means of extending Mean Time Between Failure (MTBF) and cutting maintenance costs for your facility’s pumps. SKF pump solution components include: SKF Explorer bearings Laser shaft alignment tools SKF induction heaters SKF seals Condition monitoring tools and services Cut maintenance costs and extend MTBF on pumps HYDROCARBON PROCESSING Benefits Extends Mean Time Between Failures (MTBF) Reduces maintenance costs Reduces vibration and noise Easier, safer, and more accurate mounting of bearings Single-source responsibility Typical applications Crude charge Reflux and tops Intermediate reflux Gas oil Tops crude Naptha, paraffin and diesel Flasher bottom Slurry For more information on SKF products and solutions for the hydrocarbon processing industry, contact your SKF Authorized Distributor.

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Page 1: Anti Friction Bearings for Pumps

SKF packaged solutions “pump up” uptime

Hydrocarbon processing pumps battle hot, corrosive conditions that eventually defeat bearings and cause premature failure. The resulting downtime costs the industry hundreds of millions

of euros a year in maintenance and lost productivity. While you can’t change the harsh operating environments in your facility, you can change the way you defend your pumps – and your operating budget.

The SKF pump solution

SKF® offers a “systems approach” of products and services to overcome the heat, contaminants, inadequate lubrication, and shaft misalignment that contribute to bearing failure and pump downtime.

Drop-in replacement with SKF Explorer bearings – which

can outlast conventional bearings by as much as 300% – is a simple, cost-effective way to extend pump life.

Advanced SKF alignment and mounting services help achieve longer bearing life and quieter, smoother pump operation. And SKF automatic lubrication systems and condition monitoring services

add another line of defense against pump downtime.

Combined with the expertise of the SKF reliability specialists who will help you implement it, this “systems approach” of products and services offers an optimum means of extending Mean Time Between Failure (MTBF) and cutting maintenance costs for your facility’s pumps.

SKF pump solution components include:

SKF Explorer bearings

Laser shaft alignment tools

SKF induction heaters

SKF seals

Condition monitoring tools and services

Cut maintenance costs and extend MTBF on pumps

HYDROCARBON PROCESSING

Benefits

Extends Mean Time Between Failures (MTBF)

Reduces maintenance costs

Reduces vibration and noise

Easier, safer, and more accurate mounting of bearings

Single-source responsibility

Typical applications

Crude charge

Reflux and tops

Intermediate reflux

Gas oil

Tops crude

Naptha, paraffin and diesel

Flasher bottom

Slurry

For more information on SKF products and solutions for the hydrocarbon processing industry, contact your SKF Authorized Distributor.

Page 2: Anti Friction Bearings for Pumps

Increase the return on your plant machinery investment with SKF.The SKF 360˚ Solution programme embodies our goal to help you get more out of your plant machinery and equipment investment. This means lowering your maintenance costs, or raising your productivity, or both! Here’s an example of the SKF 360˚ Solution programme at work in the petrochemical industry.

Refinery realises significant maintenance cost savings with SKF pump solutionsUsing a combination of SKF Explorer bearings, laser shaft alignment, and improved mounting and lubrication methods, a major refinery was able to increase the Mean Time Between Failure (MTBF) among a large percentage of their pumps from 18 months to 54 months, over a period of 10 years. The posi-tive financial impact of this for the refinery is shown below.

Publication 6385 EN • October 2006

SKF 360° Solution ROI calculations are from the SKF Documented Solutions Programme. Ask your SKF Authorized Distributor for more details.

SKF is a registered trademark of the SKF Group.

© SKF Group 2006 The contents of this publication are the copyright of the publisher and may not be reproduced (even extracts) unless prior written permission is granted. Every care has been taken to ensure the accuracy of the information contained in this publication but no liability can be accepted for any loss or damage whether direct, indirect or consequential arising out of the use of the information contained herein. Any cost savings and revenue increases in this publication are based on results experienced by SKF customers and do not constitute a guarantee that any future results will be the same.

All numbers are rounded off and based on customer estimates. Your particular cost savings may vary.

Return On Investment (ROI) summary

Pump population ....................................................................... 523

Reduction in pump failures(increased MTBF from 18 to 54 months) ............................................ 1 046 (fewer failures)

Cost of failures: Components (8 970 € per pump x 1 046) ...................................9 382 620 €

Labour (4 staff x 7.5 hours per pump x 28.65 € hour x 1 046)........................................... 899 037 €

Total value 10 281 657 €

SKF solution investment(bearings, training, alignment tools, condition monitoring) ....................................................1 722 000 €

Net benefit ....................................................................8 559 657 €

SKF solution ROI over 54 months .............................. 497%

Page 3: Anti Friction Bearings for Pumps

Achieve optimum centrifugal pump performance

By David R. Mikalonis, SKF USA Inc.

ChemicalProcessing.com

Proper bearings, lubrication and seals as well as proactive maintenance are crucial.

Centrifugal process pumps often must perform in hostile and stressful operating conditions. As a result, the likelihood of their premature failure increases over time — raising risks of incurring considerable costs and lost productivity from downtime. With pressures mounting to achieve better pump reliability, reduced maintenance and lower energy consumption, the quest to identify and implement viable solutions for relief ranks as a top priority.

Evaluating pump maintenance and repair practices — paying particular attention to bearings, lubrication and seals — can serve as a crucial tool for attaining higher levels of pump reliability and longer service life. The proper bearings, lubricants and sealing systems can boost economies and efficiencies and, when supported by proactive condition-monitoring approaches, can help extend the service life of pumps and minimize the need for untimely pump replacement or rebuilds. Selecting the bearings Bearings in centrifugal pumps support hydraulic loads imposed on the impeller, the mass of the impeller and shaft, as well as loads due to couplings and drive systems.

They also keep the shaft axial and radial deflections within acceptable limits for the impeller and shaft seal.

A variety of conditions tend to continually put bearings in many centrifugal pumps to the test. The bearings often will face high axial loads, marginal lubrication, and high operating temperatures and vibration, all while the bearings attempt to minimize friction — which, if uncontrolled, can result in power loss, excessive heat generation, increased noise or wear, and early bearing failure.

All these influences can dramatically impact the service life and reliability of bearings and, in turn, pumps. So, first and foremost, evaluate bearings (types, designs and arrangements) in the context of their anticipated operating environment.

Suitable bearings are available to satisfy even the most difficult conditions faced by centrifugal pumps. As an example, thrust-type bearings (to support axial loads created by hydraulic forces in the pump) include various versions of angular contact ball bearings that suit many applications:

Single-row 40° angular contact ball bearings. These are the most popular API pump thrust bearings in service today and generally are used in moderate-speed centrifugal pumps where high thrust loads can be expected.

Variations designed with robust machined brass cages suit applications where thrust loads vary greatly during operation and periods of ball skidding are likely. These bearings also will resist destructive vibration forces should cavitation occur. They normally are mounted in back-to-back paired arrangements to accommodate reversing thrust loads and to provide

adequate shaft support to promote long mechanical-seal life.

Pay particular attention to internal clearance. When mounted and at operating temperature, the bearings should have enough residual internal clearance to operate cool but not so much as to promote skidding of the inactive bearing.

Double-row angular contact ball bearings. These (Figure 1) are used extensively as the primary thrust bearing in ANSI standard centrifugal pumps and some older API-style pumps. The most effective types feature a Conrad-design, ABEC-3 precision tolerances, a 30° contact angle per row, one-piece heat-treated pressed steel cages, and multiple sealing options. Because their contact angles diverge outwardly, the bearings exhibit greater rigidity and increased resistance to misalignment. As with paired single-row

Page 4: Anti Friction Bearings for Pumps

angular contact ball bearings, operating conditions dictate the need for normal or greater-than-normal (C3) internal radial clearance.

Design variations are becoming more popular. Examples include steeper (40°) contact angles to deliver increased thrust capacity, machined brass cages to offer robust performance under heavy-duty and poor-lubrication conditions, reduced axial internal clearances to promote load sharing between the two rows of balls and a reduced possibility of skidding in the inactive ball set, and ABEC-3 (P6) tolerances to contribute better control of the bearing’s mounted condition and smoother bearing operation.

Specialized angular contact ball bearing sets. For pumps with minimal thrust, paired 15° angular contact bearings generally suffice. However, for high-thrust-load conditions, use high-performance matched sets of 40° and 15° angular contact ball bearings to provide improved robustness by reducing the susceptibility of ball skidding in the inactive bearing. These designs are intended for centrifugal pumps that don’t reverse or only periodically reverse.

The primary benefit of these sets is that the 15° bearing is designed with considerably less internal clearance than the 40° bearing, making it less susceptible to centrifugal and gyroscopic forces producing ball sliding and shuttling, while providing additional radial stiffness to maintain integrity of the shaft and seals.

Split-inner-ring angular contact ball bearing sets. These, by matching a single-row 40° angular contact ball bearing with a split-inner-ring ball bearing or four-point contact ball bearing, are designed to accommodate thrust loads in either direction. This arrangement commonly is used in vertical pumps to handle the primary thrust load but also can be utilized in horizontal arrangements, provided the loading is such that the split-inner-ring bearing doesn’t support radial load on its own.

Because two bearings acting in tandem share the thrust load, this arrangement offers an extremely high thrust-carrying capacity. Reversing thrust load can be accommodated on the backside of the split-inner-ring bearing. These two-bearing sets behave like “triplex” sets with the added advantage of saving space and costs.

Supplying the lubrication Proper lubrication for pump bearings is essential for reliable service — improper lubrication accounts for more than 30% of bearing failures, according to some studies. Good lubricants primarily provide a separating film between a bearing’s rolling elements, raceways and cages to prevent metal-to-metal contact and undesired friction that otherwise would generate excessive heat that could cause wear, metal fatigue and potential fusing of the bearing contact surfaces. Adequate lubrication for bearings also acts to inhibit wear and corrosion and help guard against contamination damage.

The common methods for the effective lubrication of pump bearings include:

Grease. Easy to apply, grease can be retained within a bearing’s housing and provides extra sealing protection. Depending on the rotational speeds and operating temperatures, relubrication may be required to combat short grease life. When the operating conditions allow, “greased-for-life” bearings, which eliminate requirements for relubrication and related maintenance tasks, can offer an attractive alternative.

Oil bath. This option establishes an oil level at the center of the bearing’s bottom rolling element and represents the comparative baseline of bearing friction among the lubrication methods. Best results over time can be achieved using a constant-level oiler.

Oil ring. In this method, an oil ring is suspended from the horizontal shaft into an oil bath positioned below the bearings. The rotation of the shaft and ring flings oil from the bath onto the bearings. The lower oil volume in the bearing reduces the viscous friction in the bearing system to allow higher shaft speeds and better cooling.

Oil mist and air-oil. Here, oil is atomized and carried by an air stream to the bearing. Among all pump bearing lubrication approaches, this one generates the least amount of friction (allowing rotational speed to be based on the bearing design instead of lubrication limitations) and creates a positive pressure within the bearing housing (fending off invasive contaminants).

Regardless of lubrication method, always specify lubricant according to the demands on vertical shafts and resistance to solids, pressure, temperatures, loads and chemical attack. Where pump locations may be difficult to access, fully automatic systems can be integrated to enable timely, proper and effective delivery.

Sealing the system Bearing seals in centrifugal pumps handle four crucial tasks. They retain lubricants or liquids, exclude contaminants, separate fluids and confine pressure. So, the seals have their work cut out for them. Solid contaminants, depending on particle size, hardness and brittleness, will produce either indentations or wear on the bearing surfaces; water will affect the efficiency of the lubricant; and contamination in the lubricant can dramatically reduce bearing life.

Page 5: Anti Friction Bearings for Pumps

When a seal fails, contamination can infiltrate the bearing area, entering the lubricant and then the bearing. In addition, loss of lubricant from the bearing can lead to dry-running operation, which ultimately can cause bearing failure.

The choice of seal for centrifugal pump bearings depends on the unique demands and operating conditions of the application. Keep in mind, though, that the bearing and sealing arrangement represent an integrated system.

Dynamic radial seals generally are the best choice for centrifugal pumps. These seals create the barrier between surfaces in relative motion (one usually stationary while the other rotates).

Typically, radial shaft seals incorporate:

Steel or elastomer shell. This is bonded to the sealing material and enables the requisite interference fit of the seal in the housing bore to be maintained (as well as facilitates proper installation); and

Elastomer sealing lip. Usually installed against the shaft, this provides dynamic and static sealing against the shaft and features a sealing edge formed by pressing, cutting or grinding. Most sealing lips are made from a formulation of nitrile rubber.

However, materials specifically for use with fuels, industrial fluids and highly compounded lubricants are available.

Seal selection ultimately must be based on a thorough review of application parameters and environmental factors. Particularly in pump applications, for example, seals will be exposed to relatively constant pressure differentials — making pressure seals (in which the seal cavity is pressurized) the preferred choice.

Due to the nature of their design and the harsh operating environment, seals usually provide a much shorter life than the components they protect. So, don’t fall into the common but unfortunate habit of scheduling seal replacement only at intervals dictated by requirements of other components such as bearings. Many bearing failures can be prevented if seals are replaced when the first signs of wear or leakage have been detected.

To get an inkling of how long seals should last, consider the amount of contamination a seal will encounter, cycle times, speed and heat. Of course, contamination isn’t the only reason for premature seal failures. Others culprits can include:

• poor selection;

• improper installation, resulting in leakage; and

• change of lubricant, causing adverse reactions in common sealing materials.

To head off problems, institute a rigorous seal inspection and replacement program.

Don’t automatically replace a failing seal with another of the same design. For example, if an oil analysis shows higher-than-anticipated ingress of contaminants, it may be time to upgrade the entire sealing arrangement (perhaps using a more chemically resistant material or adding elements to bolster the sealing system). Or, in cases of excessive wear, it may make sense to switch to a non-contact labyrinth seal design.

Monitoring pump health Taking a more proactive approach to pump maintenance can play an important role in boosting uptime. So, it’s not surprising there’s increasing interest in condition monitoring. This involves regular measurement and analysis of key physical parameters such as vibration and temperature, and enables detection of pump system problems before they can result in unscheduled downtime, high repair or replacement costs, and lost productivity.

Basic instruments can assess and report on vibration, temperature and other parameters. More advanced tools include online surveillance systems and software that can deliver real-time data for review and foster more timely remedial action should this become necessary.

Many problems will manifest as vibration, which is widely considered the best operating parameter to judge pump-train condition. Vibration can detect problems such as imbalance, misalignment, bearing oil-film instabilities, rolling bearing degradation, mechanical looseness, structural resonance and a soft foundation.

Vibration measurements are quick and fairly non-intrusive because pump equipment remain undisturbed. In addition, established industry standards identify vibration levels for specific types of equipment.

A significant increase in “overall vibration” (the sum of all vibration within the frequency range of the instrument) compared to a baseline value will signal an impending problem, allowing it to be addressed before equipment failure occurs.

Page 6: Anti Friction Bearings for Pumps

A wide range of technologies from hand-held vibration monitoring tools such as low-cost vibration pens and overall vibration meters to more sophisticated portable data collectors and related instruments combining compact size with data storage capabilities (Figure 2) can handle data collection.

Figure 2. This instrument provides a range of testing and analysis techniques as well as data recording.

Regular monitoring of temperature also can shed light on system conditions. It’s a useful indicator of mechanical condition or the load applied to a specific component such as a thrust bearing. For example, as a thrust bearing fails, friction causes its temperature to rise. Thermocouple sensors installed in the housing of a bearing and measuring temperature changes within the bearing or lubricant can send a signal about problems beginning to develop, enabling appropriate maintenance actions to be scheduled.

The technology toolbox for condition monitoring also includes online surveillance systems. These perform round-the-clock monitoring of pumps regardless of their location. Such technology can collect data continuously or at a predetermined frequency from permanently installed sensors and then send its findings to a host computer for subsequent analysis.

Involving the operator Operators can play a pivotal part in proactive maintenance strategies and boosting pump uptime — by serving as the “eyes and ears” in a plant to detect equipment faults before problems can escalate.

Under Operator Driven Reliability (ODR), the operators perform basic maintenance activities above and beyond their classic duties (Figure 3). ODR enlists operators to observe and record the overall health of pumps by checking for leaks, listening for noises, monitoring temperature, lubrication and vibration, and taking responsibility to identify any abnormal equipment conditions — and, in some cases, to respond with the appropriate corrective actions. Hand-held technology allows operators to translate early detection of developing problems into prompt corrective action.

Figure 3. Operators can serve as a plant’s eyes and ears to detect developing problems.

Page 7: Anti Friction Bearings for Pumps

Operators can monitor:

Bearings. Detecting faults in a bearing’s outer ring, inner ring, rolling elements and cages also can suggest potential problems elsewhere in a pump system.

Lubrication. Spotting under- or over-lubrication within pump bearings can lead to a more-effective lubrication program.

Shaft. Checking pump shafts can uncover imbalance, misalignment, bending, rub, excessive thrust and looseness.

Seal integrity. Watching for leaks and inspecting lubricant cleanliness can provide an indication of the condition of pump seals.

Foundation. Inspecting pump foundations and bases can warn of looseness caused by loose or corroded hardware, deteriorated grouting, base-plate straightness, and pump housing soft- and sprung-foot conditions.

Vane blade pass. It’s important to look for conditions such as wear, blade/vane failure and looseness of shaft fit, as well as contamination and obstructions due to foreign debris within the process.

Impeller clearance. Proper settings are key for optimum performance and represent a good indicator of pump impeller and wear ring conditions.

Cavitation and flow turbulence. Such problems can impact performance and overall pump health over time.

Temperatures. This should involve monitoring several aspects, including bearings, lubrication, sump and the pump housing.

Process parameters. Shaft speed, head pressure, discharge pressure, differential pressure, vacuum, suction, flow, reservoir levels, valve positions and product consistency all deserve attention.

Coupling operator oversight and effective proactive maintenance with proper pump bearings, lubrication and seals can contribute to smoother flowing operations, better performance and service life and, ultimately, optimum uptime.

David R. Mikalonis is sales manager, pump industry, for SKF Industrial Division, SKF USA Inc., Kulpsville, Pa. E-mail him at [email protected].

Page 8: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 1 Pump BearingsSKF Reliability Maintenance Institute

Part Three Centrifugal Pump Bearings

Page 9: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 2 Pump BearingsSKF Reliability Maintenance Institute

Selection of Bearing Type

Available space

Type and level of load

Precision

Misalignment

Quiet running

Stiffness

Speed

Axial displacement

Mounting and dismounting

Page 10: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 3 Pump BearingsSKF Reliability Maintenance Institute

Selection of Bearing Size

Calculation of applied load

•Forces on rotating equipment are supported by the bearings

Page 11: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 4 Pump BearingsSKF Reliability Maintenance Institute

Selection of Bearing Size

Calculation of bearing equivalent load, P

•Reaction forces

•Held bearing supports the thrust load

•Radial equivalent

Dynamic capacity, C

• ISO dynamic load rating = the load that gives a basic rating life of 1,000,000 revolutions

Page 12: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 5 Pump BearingsSKF Reliability Maintenance Institute

Selection of Bearing Size

Calculation of bearing life

Minimum load requirements•

To prevent sliding damage

Rule of Thumb: 0.02 C for roller bearings

Rule of Thumb: 0.01 C for ball bearings

Specific guidelines available for each bearing style

p

SKF1nm PC

aaL

Page 13: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 6 Pump BearingsSKF Reliability Maintenance Institute

Pump Bearings

DGBB

Deep groove ball bearings

ACBB

Angular contact ball bearings

CRB

Cylindrical roller bearings

SRB

Spherical roller bearings

SRTB

Spherical roller thrust bearings

Page 14: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 7 Pump BearingsSKF Reliability Maintenance Institute

DGBB

Simple design

High speeds

Low maintenance

Low cost

Radial and axial capacity

Seals, shields

Snap rings

High capacity (filling slot)

Can be either fixed or floating

Page 15: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 8 Pump BearingsSKF Reliability Maintenance Institute

DGBB Nomenclature

6XXX series (ISO guidelines)

First digit signifies bearing type

Second digit represent the dimension series

Last 2 digits represent the bore size between 20 mm and 480 mm

•6205: 05 x 5 = 25 mm bore

Page 16: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 9 Pump BearingsSKF Reliability Maintenance Institute

DGBB Suffixes (SKF)

C2, CN, C3…

internal clearance

P5, P6…

precision

RS1 (RSH, RSL)

seal

RZ

low friction seal

Z shield

N, NR

snap ring groove, ring

Page 17: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 10 Pump BearingsSKF Reliability Maintenance Institute

ACBB

Race shoulder provides axial capacity

Single or double row

40, 30, 25, 15 degree contact angles

Steeper angle = higher thrust capacity

With clearance or preload

Usually fixed

Must be flush ground to operate as a pair.

Page 18: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 11 Pump BearingsSKF Reliability Maintenance Institute

ACBB

Single Tandem Back to Back“O”

Arrangement

Face to Face“X”

Arrangement

Page 19: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 12 Pump BearingsSKF Reliability Maintenance Institute

ACBB

Back to Back Face to Face

Diverging contact anglesMore rigidAccommodates tilting moments

Converging contact anglesLess rigidLess suitable for tilting moments

Page 20: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 13 Pump BearingsSKF Reliability Maintenance Institute

ACBB Nomenclature

7XXX series (ISO)

•Single row

5XXX series (ISO)

•Double row

8XXX series

•MRC Pumpac

Page 21: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 14 Pump BearingsSKF Reliability Maintenance Institute

ACBB Suffixes

CA, CB, CC

internal clearance

GA, GB, GC

preload

P4A

precision

RS1 (RSH, RSL)

seals

Z shields

M, J, P

cage style

BE , A, E

internal design

Page 22: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 15 Pump BearingsSKF Reliability Maintenance Institute

CRB

Variety of designs

N, NU, NJ

High radial capacity

Separable

Compensates for shaft expansion internally

Little to no axial capacity

Easy mounting & dismounting

Sensitive to misalignment

Usually free

Page 23: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 16 Pump BearingsSKF Reliability Maintenance Institute

CRB Nomenclature

N, NU, NJ, NUP XXXX (ISO)

•N = Inner ring flange

•NU = Outer ring flanges

•With 3 integral flanges

•With 3 integral flanges & 1 loose flange

Page 24: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 17 Pump BearingsSKF Reliability Maintenance Institute

CRB Suffixes

C2, CN, C3

internal clearance

M, MA, MB

brass cage centering

J

steel cage

N, NR

snap ring groove, ring

EC

internal design

Page 25: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 18 Pump BearingsSKF Reliability Maintenance Institute

SRB

Self aligning

High load capacity

Radial and axial capacity

Can be either fixed or free

Page 26: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 19 Pump BearingsSKF Reliability Maintenance Institute

SRB Nomenclature

2XXXX (ISO)

First digit is the bearing series

Second digit is the width series

Third digit is the diameter series

Last two digits are the bore size

Page 27: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 20 Pump BearingsSKF Reliability Maintenance Institute

SRB Suffixes

C, CC, E

internal design

C2, CN, C3

internal clearance

K

tapered bore

W33

lubrication holes, OD

Page 28: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 21 Pump BearingsSKF Reliability Maintenance Institute

SRTB

Self aligning

Angled raceways

Large rollers

High axial capacity

separable

Page 29: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 22 Pump BearingsSKF Reliability Maintenance Institute

SRTB Nomenclature & Suffixes

29XXX (ISO)

•E internal design

Page 30: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 23 Pump BearingsSKF Reliability Maintenance Institute

XXXXXXXXXPumPac®

XXXXXXXXXXTRBXXXXXXXXXACBB

XXXXXXXXSRBXXXXXXXDRACBB

XXXX-XXXCRBXXXXXXDGBB

Bearing

Rad

ial

Capa

city

Axia

l Ca

paci

ty

Spee

d

Rad

ial

Capa

city

Axia

l Ca

paci

ty

Spee

d

Bearing

X – good

XX – better

XXX – best

XXXX – ultimate

Page 31: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 24 Pump BearingsSKF Reliability Maintenance Institute

Pump Bearing Arrangements

Submersible Bilge Pump

Page 32: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 25 Pump BearingsSKF Reliability Maintenance Institute

Pump Bearing Arrangements

Light DutyCentrifugal Pump

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2011-11-04 ©SKF Slide 26 Pump BearingsSKF Reliability Maintenance Institute

Pump Bearing Arrangements

Medium DutyCentrifugal Pump

Page 34: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 27 Pump BearingsSKF Reliability Maintenance Institute

Pump Bearing Arrangements

Heavy DutyCentrifugal Pump

Page 35: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 28 Pump BearingsSKF Reliability Maintenance Institute

Pump Bearing Arrangements

Axial Flow

Page 36: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 29 Pump BearingsSKF Reliability Maintenance Institute

Pump Bearing Arrangements

Gear Pump

Page 37: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 30 Pump BearingsSKF Reliability Maintenance Institute

Pump Bearing Arrangements

Portable Electric Pump

Page 38: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 31 Pump BearingsSKF Reliability Maintenance Institute

Pump Bearing Arrangements

Small PistonCompressor

Page 39: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 32 Pump BearingsSKF Reliability Maintenance Institute

ANSI

Page 40: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 33 Pump BearingsSKF Reliability Maintenance Institute

ANSI

Recommends double row angular contact bearings

SKF offers 3xxx, 5xxx series

•30o

contact angle

•Double direction axial capacity

•CB internal clearance

•Pressed steel cage

•Seals and shields

Page 41: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 34 Pump BearingsSKF Reliability Maintenance Institute

ANSI

SKF 33xx DNRCBM

•40o

contact angle

•Double direction axial capacity

•CB internal clearance

•Machined brass cage

•Dimensionally interchangeable with 33xx/53xx series

Page 42: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 35 Pump BearingsSKF Reliability Maintenance Institute

API

Page 43: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 36 Pump BearingsSKF Reliability Maintenance Institute

API

Recommends 2 single row angular contact bearings

SKF offers 7xxx series

•40o

contact angle

•Universally ground for pairing

•Double direction axial capacity

•CB internal clearance

•Various cage materials

Back-to-Back

Face-to-Face

Page 44: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 37 Pump BearingsSKF Reliability Maintenance Institute

API

SKF Pumpac, 8xxx series

•One 40o

contact angle

•Primary, heavy thrust

•One 15o

contact angle

•Secondary, light thrust

•Brass cage

•Best for skidding problems

40o15o

Page 45: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 38 Pump BearingsSKF Reliability Maintenance Institute

Pump Bearing Loads

Radial loads are created by

•Mass of the impeller

•Mass of the shaft

•Mass of the coupling

• Loads due to the drive

•Hydraulic loads imposed on the impeller

•Unequal pressure distribution around the circumference of the impeller

Page 46: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 39 Pump BearingsSKF Reliability Maintenance Institute

Radial Loads

Single volutes have higher radial loads than double volutes

Diffuser types have lower radial loads

Off BEP operation increases applied radial loads

Page 47: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 40 Pump BearingsSKF Reliability Maintenance Institute

Pump Bearing Loads

Axial loads are created by

•Differences in the hydrostatic forces acting on the shroud and the hub of the impeller

•Momentum forces due to direction changes

•Hydraulic pressure acting on the impeller

FrontShroud

Hub (back)Shroud

Page 48: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 41 Pump BearingsSKF Reliability Maintenance Institute

Axial Loads

Wear rings, balancing holes reduce applied axial loads

Double suction pumps are considered balanced with no axial loads

•Except for flow imbalance through the two impeller halves

Page 49: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 42 Pump BearingsSKF Reliability Maintenance Institute

Axial Loads

Magnitude and direction can change at startup and shutdown

•Reasoning for back up bearing

Magnitude and direction can change with pump operation outside of design parameters

•Off BEP operation

Page 50: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 43 Pump BearingsSKF Reliability Maintenance Institute

Pump Bearing Loads

FrA FrB

A B

C B

RG

LA

C B

RG

LB

FpaFa

Fpr

Page 51: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 44 Pump BearingsSKF Reliability Maintenance Institute

Minimum Load

A bearing must always be subjected to a given minimum load in order to prevent skidding of the balls along the raceway•Adhesive wear, increased friction, increased heat, lower bearing

service life

Bearings running under high speeds, high accelerations or rapid changes in the direction of loading are particularly susceptible• Inertia forces on the balls and cage and the friction in the lubricant have a

detrimental effect

Page 52: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 45 Pump BearingsSKF Reliability Maintenance Institute

Minimum Load

Generally the weight of the components plus the normally applied loading exceeds the minimum load requirement

If this is not the case, preloading is required

Page 53: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 46 Pump BearingsSKF Reliability Maintenance Institute

Minimum Load

In a pump the back up angular contact bearing is often running without sufficient load

Primary Axial Load

Page 54: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 47 Pump BearingsSKF Reliability Maintenance Institute

Minimum Load

For an ACBB, minimum required radial load is based on

• Internal clearance

•Contact angle

•Operating speed

•Bearing geometry

•Lubrication

232

1001000

mrrm

dnkF

Page 55: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 48 Pump BearingsSKF Reliability Maintenance Institute

Minimum Load

In operation the back up bearing

• is not supporting applied load

•has an increase in internal clearance

•System deflection

• running at high speeds

•Centrifugal forces whip the balls outwards

And therefore often fails due to skidding

Page 56: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 49 Pump BearingsSKF Reliability Maintenance Institute

Ball Spin

a

ai

ao

Sufficient Loading Insufficient Loading

Extra internal clearance and centrifugal forces cause the ball to contact at different angles between the inner and outer ring. This causes skidding as the local rotational speeds vary and the axis of rotation varies.

Page 57: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 50 Pump BearingsSKF Reliability Maintenance Institute

Preload

Preloading the angular contact bearings can prevent minimum load issues

•Contact angles are preserved

•Clearance is reduced

•Ball are in contact and rotating

Clearance and preload in the bearings is determined by the ball size as well as face grinding

Page 58: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 51 Pump BearingsSKF Reliability Maintenance Institute

Preload

G

G/2 G/2

Page 59: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 52 Pump BearingsSKF Reliability Maintenance Institute

Preload

G

G/2 G/2

PreloadPreload

Page 60: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 53 Pump BearingsSKF Reliability Maintenance Institute

Preload

Preloading can potentially increase the bearing life

•Reduced ball loads

However it can quickly decrease the bearing life

Life

Preload Clearance

Page 61: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 54 Pump BearingsSKF Reliability Maintenance Institute

Alternate Bearing Arrangement

Paired 40o

& 15o

Primary thrust supported

Reverse thrust/start up thrust covered

Minimum load requirement reduced on back up bearing

15°

Axial Load

Applied Load Marking

40°

Page 62: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 55 Pump BearingsSKF Reliability Maintenance Institute

Questions?

Return

Page 63: Anti Friction Bearings for Pumps

Advertisement

Best practices for lubing API centrifugal pump bearing housings Rojean Thomas Tags: bearings, maintenance and reliability

More and more plants have goals focused toward extending the mean time between repairs (MTBR) for their rotating equipment, which includes centrifugal pumps for use in petroleum, petrochemical and natural gas industries. Maximizing the lubrication effectiveness in API process pumps will be a big contributor toward meeting this goal. In this article, you will learn about optimal ways of lubricating the bearings in API process pumps, including data on discs vs. oil ring lubrication, maintaining the proper level and contamination control. Bearings that are properly lubricated with minimal contamination will operate at lower temperatures and for longer periods of time.

Introduction

This article is focused on horizontal centrifugal API (American Petroleum Industry) process pumps but many of the topics/concepts can also apply to ANSI pumps. There have been various studies done on why rolling element bearings fail prematurely, and consistently, the No. 1 cause can be attributed to poor lubrication. One particular study stated that 50 percent of damage is caused by defective lubrication. Poor or defective lubrication can be classified as:

• Incorrect lubricant

• Incorrect quantity of lubricant

• Contaminated lubricant

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• Lubricant degradation

Figure 1: Typical Bearing Failure Causes

The API Standard 610 requires a minimum bearing life (L10) of 25,000 hours with continuous operation and rated conditions and at least 16,000 hours at maximum loads and speed. The L10 life is the number of revolutions that 90 percent of a group of identical bearings under identical conditions will endure before the first sign of fatigue failure occurs. If we assume 80 percent run time per year (292 days per year), the minimum expected bearing L10 life would be 3.5 and 2.2 years, respectively.

As cited above, poor lubrication will cause 50 percent of these bearings to fail before any signs of fatigue occur. These failures can occur within a few hours after installation, after one year, or just before fatigue. At what point prior to fatigue do these bearings fail can be extended by following the 5 R’s of Lubrication: Right lubricant, Right quantity, Right location, Right time and Right quality.

Many companies are requesting L10 life ratings of 40,000 hours (5.7 years) when purchasing new pumps, but it is still important to address poor lubrication practices.

Incorrect Lubricant

Anti-friction bearings in process pumps can either be grease, mineral oil or synthetic oil lubricated. The primary purpose of oil, or the oil constituent of grease, is to separate the roller elements and raceway contact surfaces, lubricate the sliding surfaces within the bearings, and provide corrosion protection and cooling.

Viscosity is the single most important property of a lubricant. Use of the correct viscosity lubricant for the speed, operating temperature and load ensures the development of a full oil film between rotating parts. When the incorrect viscosity is used, the load-carrying ability of the lubricant is negatively affected. The oil degrades to a point where it is too thick to penetrate between the surfaces and the oil supply may not be adequate to prevent sacrificial contact. Viscosity is influenced by load, temperature, water, contaminants and chemical change. The OEM operation manual should be consulted for recommendations on viscosity, but it is also important to measure the oil sump operating temperature since viscosity decreases as temperature increases.

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Table 1: SKF Recommendation for Ball Bearings in Pumps

Oil in process pumps is typically an ISO grade 46, 68 or 100. These numbers relate to the Kinematic viscosity in centistokes. The oil is usually hydrocarbon oil, although synthetic oils are sometimes used for specific lubrication applications. The viscosity of synthetic oil is less sensitive to temperature changes and more widely used when temperature fluctuations exist. If temperature also exceeds 100 degrees Celsius (212 Fahrenheit), a synthetic is recommended as the oxidation rate of mineral oil accelerates faster at higher temperatures.

Incorrect Quantity of Lubricant

Selecting the right lubricant for the application was the first step, and the next is to determine the correct quantity is initially applied and maintained. It is important to understand the design of the bearing housing assembly and, more specifically, the designed oil level.

Oil Level – Design

The most common types of methods for lubricating rolling element bearings in horizontal process pumps are:

• Grease

• Oil splash (direct contact, rings or flingers)

• Pure oil mist

• Purge oil mist

The use of grease is primarily limited to lower horsepower pumps where the parameters are in the size and speed range of rolling element bearings. Oil splash lubrication is the most common method utilized. Oil splash designs include direct contact, oil rings, flinger discs or combinations of each.

In direct contact, as the shaft rotates, the rolling elements in the bearing make contact with a level of oil. The bearings should not be submerged in the oil more than one-half the diameter of the lowest rolling element or ball (Figure 2). Oil rings are utilized where speed or loads are factors and the oil is not in direct contact with the bearing. Oil rings make contact with the oil and provide splash type lubrication without direct bearing contact. Flinger discs are similar to oil rings in that the oil is not in direct contact with the bearing. The discs make contact with the oil and provide splash type of lubrication. Oil rings are more dependent on the shaft speed relative to the depth of submersion, but a good rule of thumb to use is to use three-eighths of an inch

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Page 66: Anti Friction Bearings for Pumps

at the deepest point. Flinger disks are less susceptible to problems of over-lubrication since they are attached directly to the rotating shaft and they should also submerge about 3/8 inch into the oil. A combination design would incorporate a metallic disc and direct contact. The bearings directly contact the oil and the disc provides additional splash lubrication for cooling.

Figure 2: Pump Cross Section – Oil Splash/Direct Contact

The basic concept of the oil mist lubrication system is dispersion of an oil aerosol into the bearing housing. Air atomizes the oil into particle sizes of one to three microns. Airflow transports these small oil particles through a piping system into the pump housing which flows through bearings. It is a centralized type of low-pressure lubrication system. In pure mist lubrication, the oil/air mist is fed under pressure to the housing. There is no reservoir of oil in the housing and oil rings are not used. Purge mist lubrication utilizes the same principles of pure mist, but a reservoir of oil in the housing exists. A slinger/flinger disc or oil rings can also be used to provide splash lubrication.

Low Level

In a low-level operating condition, the bearing will not receive enough lubricant necessary for proper film strength – a precursor to surface contact, skidding and possible catastrophic failure. Without enough oil to prevent friction, thermal runaway can happen quickly to a steel bearing. As the temperature of the bearing increases, the ball and race both expand, which creates an even tighter fit. This increases the temperature even more, and the cycle continues to a rapid, catastrophic failure.

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Page 67: Anti Friction Bearings for Pumps

A low level of oil will affect all types of oil splash lubrication. In direct contact, there will be insufficient film strength and rings or discs may not be able to pick up enough oil to satisfactorily lubricate the bearings.

High Level

In a high-level operating condition, churning of the lubricant will occur, accelerating the oxidation rate due to excessive air and elevated temperatures. It is a common mistake to believe that more is better – especially when it comes to oil sump lubrication. Too much oil can affect the operation of oil rings, flingers and direct bearing contact. Another result of high lubricant levels is leaking seals. If the oil level is too high, the ring will become submerged and no longer sling the oil. Flinger discs are less susceptible to this as they are directly attached to the shaft.

Maintaining Proper Level

Oil sump lubrication does not require that a specific level be maintained for proper bearing load – only that oil levels do not reach critically low or high points (Figure 3).

Figure 3.Typical Oil Level Conditions

Maintaining the proper quantity of lubricant is perhaps the easiest means of increasing lubrication life and effectiveness. Consult with your equipment manufacturer or the operation manual for recommended oil levels, optimum lubricating equipment and preferred practices. The majority of equipment will have an external marking on proper oil level that is either cast into the housing or a tag is applied.

One of the most widely used methods of maintaining the proper level lubricant in a bearing housing is the constant level oiler (Figure 2). The constant level oiler replenishes oil lost by leakage through seals, vents and various connections, and plugs in the bearing housing. Once

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the proper level has been set, replacing the oil in the reservoir is the only required maintenance. View ports (bullseyes) can also be used to verify proper oil level.

Constant level oilers have a “control point” that must align with the proper oil level of the equipment. The oiler is installed on the equipment and oil is filled to the proper level. All constant level oilers require air to function properly. If the oil level within the sump lowers, the seal at the control point is broken, allowing air to enter the reservoir, displacing the oil until the seal is re-established. If the constant level oiler is set correctly and there is oil in the reservoir, the equipment will always have the optimum oil level within the sump.

Contaminated Lubricant

The quality of lubrication is affected by contamination, which is a large contributor to premature bearing failures. The major types of contaminants are particulate, moisture, incompatible fluids and air entrainment. Particles impede lubricant performance and further localize pressure on components causing denting, fatigue, spalling and abrasion to the surface of mating surfaces. Water will affect the lubricant’s ability to provide a proper fluid film, causing premature failure and excessive wear. Corrosion, cavitation, and premature oxidation and filter plugging of the oil are other symptoms of water contamination. Air contamination affects oil compressibility, causes poor heat transfer, film strength loss, oxidation and cavitations.

The sources of these contaminants are:

• Generated contamination

• External ingression of contaminants

• Maintenance induced

Generated Contamination

Particle contamination can be generated during the break-in or during operation of the pump. Oil rings are typically made of bronze and are sensitive to horizontality of the shaft, speed and oil levels. They can tend to skip or hang up due to these sensitivities and make contact with other components. The rings will wear, being a softer material, and particle debris is generated. These small particles can penetrate the critical area between the rolling elements and the raceway resulting in abrasive wear.

External Ingression of Contaminants

Pressure differentials between the equipment housing and surrounding atmosphere are a leading cause of contamination ingression. Pump operation where housing temperature fluctuations occur during frequent on/off running conditions, process fluid temperature changes, outdoor use and air flow over the pump create this atmospheric exchange as pressure is equalized. During this air exchange, contamination (dirt, water, etc.) from surrounding environment is “breathed” into the oil sump through vents, seals and oilers.

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Housing components – including oilers, seals and vents – when specified properly can be very effective in preventing contamination. For many years, constant level oilers were used to maintain oil levels. Most of these were vented to the surrounding atmosphere, which can lead to contamination ingression to the housing sump. By switching to a non-vented oiler and removing vent plugs, ingression can be significantly reduced. Bearing isolators are used to prevent lubricant leakage and contaminant ingress. Labyrinth-type bearing isolators are most widely used on horizontal pumps. Bearing isolators allow increased pressure created by normal pump operation to vent through the seal and have proved to be very effective at reducing contamination ingression. The rotor and stator are not in contact, which allows for the venting to occur while preventing wear – prolonging the life of the seal. Magnetic or face seals are used to prevent damage to bearings due to contamination and lubricant leakage. Face seals are characterized by optically flat stationary and rotating faces loaded together by magnetic force or springs.

Maintenance Induced

Contamination can exist in the oil prior to being put into the equipment. It cannot be assumed that new oil is clean. Proper storage of oil and proper dispensing containers will also decrease the possibility of water or other contaminants from entering into the bearing housing. Proper care should be taken during the pump rebuild process to ensure any contamination is properly removed.

Lubricant Degradation

All lubricants will degrade over time, requiring the oil to be changed. The frequency of these changes can be extended by maintaining the quality of the lubricant.

Elevated operating temperatures are a major contributor of oil oxidation. Combined with air, particulate and water contamination, the chain reaction of oil oxidation begins. Additives are affected first, followed by the basestock, which leads to machine and component surface wear and fatigue. For every 8 degrees C (18 F) increase in oil operating temperature, the oxidation rate doubles. This can be significant when considering pump operating temperatures are frequently near, or above, 60 C (140 F). By simply lowering the operating temperature of the oil to 50 C (122 F), a 50 percent reduction in the rate of oxidation would be realized – doubling the effective life of the oil.

The most basic methods to reduce (or maintain) lower oil operating temperatures are:

• Use the correct viscosity oil.

• Use quality oil.

• Use the right amount of oil.

• Keep the oil clean.

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Air entrainment is a primary source of oxygen in the oxidation failure of oil. New oil can contain as much as 10 percent air at atmospheric pressure. Splash-type bearing housings utilizing flinger rings or slingers are all aeration-prone applications. Excessive aeration has a negative effect on acid number (AN), oil color, film strength and viscosity. In addition, air entrainment can lead to accelerated surface corrosion, higher operating temperatures and oil varnishing.

Operating temperatures can vary with each type of lubrication method. The graph below was based on laboratory testing measuring operating temperature of the oil sump from startup until the temperature leveled off. Two tests were run using ISO 68 weight oil and operating speed of 3,600 rpm. One test had the oil level at mid-ball of the lowest rolling element and the other had the oil level dropped below and a flexible flinger disc was installed to provide splash lubrication. The flexible flinger disc operating temperature was 9 F lower than the direct contact operating temperature. As stated above, this reduction in temperature results in a 25 percent decrease in rate of oxidation.

Graph 1. Temperature vs. Run Time

Summary

The importance of proper lubrication in process pumps is well known, but achieving it is not always easy. It is important to start with the basics:

Use the correct lubricant for the application Viscosity Mineral or synthetic Understand how the pump is designed to properly lubricate the bearings Oil splash, oil mist Maintain the lubricant at the proper level Constant level oilers Visual verification of level via bull’s-eyes or sight gauges Keep the lubricant free of contaminants Close up housing – reliable seals, breathers, non-vented oilers, expansion chambers Proper storage and handling of lubricant

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Oil analysis for verification of type of contaminant Maintain the operating temperature within the pumps’ design parameters Follow above guidelines

Understanding the pumps’ components as well as the surrounding environment is critical for applying the correct and most economical lubrication management system. Obtaining the designed L10 rating of the bearing can be obtainable by eliminating poor lubrication.

References

• Brandlein, Eschmann, Hasbargen, Weigand. “Ball and Roller Bearings” 3rd Edition

• Bloch, Budris. “Pump Users Handbook”

Related Articles How to flush gearboxes and bearing housings

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Page 73: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 1 [Code] SKF [Organisation]

Extreme Service Bearings

Calgary, Canada

2011-11-04

Page 74: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 2 [Code]

Our fastest research lab since 1947

SKF [Organisation]

Presenter
Presentation Notes
Image slide – dark full-bleed image – with title and subhead A dark full-bleed image slide holds a title and subhead in white (both optional), with the image filling the whole slide area. Optimised images should be saved to occupy an area of 960 x 720 pixels at 96ppi resolution. The page folio, SKF Supergraphic and SKF corporate brand mark are not part of the ‘slide master’ and are separate elements, otherwise the image would hide these ‘slide master’ elements. We therefore recommend that you cut and paste this slide for use in your own presentation, then delete the current image, insert your own and set as ‘send to back’, accessed via the ‘Draw>order’ menu. Note: The text elements of this slide are set in white in order that they may be fully legible on the dark background image. If the nature of the image is such that you need to change the colour of the text elements, you may ‘view’ the slide in ‘black and white’ (from the ‘View’ menu in PowerPoint), select the element you wish to recolour, right-click your mouse button and select ‘black and white’ on the pop-up menu. Then, select the option that is most suitable for your black and white printing. This edit will only affect the ‘black and white’ view and print-out of your document, and not the colour view.
Page 75: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 3 [Code] SKF [Organisation]

Wheels

Gearbox Engine Suspension

Total ~ 130 Bearings per car

The applications

Page 76: Anti Friction Bearings for Pumps

Hybrid bearings –

A reliable solution for extreme conditions

2011-11-04 ©SKF Slide 4 [Code] SKF [Organisation]

Material properties

Bearing steel

Bearing grade silicon

nitrideCompressive strength [MPa]

880 3000

Tensile strength [MPa]

800 800

Elastic modulus [GPa] 210 310

Hardness, HV10

[kg/mm2]700

(HRC >58)1600

Electric resistivity [m]

0.4 x 10-6

(conductor)1012

(insulator)

Density [g/cm3] 7.9 3.2

Coefficient of thermal elongation [10-6/oC]

12 3

Page 77: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 5 [Code] SKF [Organisation]

HigherStiffness

LowerFriction

ReducedMass Reliability Higher

Temperatures

Ceramicrolling

elements

Hybrid bearings* adopted in F1 —

Because:

*SKF deliver to all major F1 teams

Page 78: Anti Friction Bearings for Pumps

Gas well boosting operations

Refinery operations

Offshore operations

Oil & Gas & Petrochemical installations

2011-11-04 ©SKF Slide 6 [Code] SKF [Organisation]

Demands:• Reliable operations• Available when needed• Safe design

Presenter
Presentation Notes
Image slide with title and multiple images The multiple images are cropped top and bottom using the SKF Supergraphic and bleed off the edge of the slide area. The images will be ‘masked’ by the SKF Supergraphic. To ensure that your images are masked by the SKF Supergraphic, select the images and set as ‘send to back’, accessed via the ‘Draw>order’ menu. Different numbers of images may be used together in this way, but take care not to clutter the content of the slide. Colour images should be saved as RGB (Red Green Blue) .JPG (JPEG) format from your image editing application. Black and white images should be saved as grayscale .JPG files. The page folio, SKF Supergraphic and SKF corporate brand mark are not part of the ‘slide master’ and are separate elements, otherwise the image would hide these ‘slide master’ elements. We therefore recommend that you cut and paste this slide for use in your own presentation, then delete the current image, insert your own and set as ‘send to back’, accessed via the ‘Draw>order’ menu.
Page 79: Anti Friction Bearings for Pumps

Technical offer

2011-11-04 ©SKF Slide 7 [Code] SKF [Organisation]

Bearing design:•

Ceramic rolling elements (HC5)

Super-tough stainless steel rings (VC444)

Composite cage

Glass fibre reinforced PEEK polymer

alternatively machined brass cage, single piece, no rivets, stress free

Page 80: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 8 [Code] SKF [Organisation]

Basic bearing steel requirements

Fatigue and Wear resistance

Hardness:

HRC

58

Micro structure:

Clean and fine

Corrosion resistance (Pitting Resistance Equivalent):

PREN =

Cr% + 3.3 (Mo%+0.5 W%) + 16 N%

Minimum 10.5 wt% Cr is required

(NACE MR0175, alloy ranking)

Page 81: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 9 [Code] SKF [Organisation]

Typical use of special bearing steels by SKF

Typical application

SKF Grade 3(AISI 52100)

High volume standard bearings; High precision bearings and Corrosion resistant bearings with protective coatings

M50 Aerospace and gas turbine bearings

SKF W- Standard assortment of stainless deep grove bearings

440C Special bearings e.g. semicon

and aerospace

SKF V - Corrosion resistant high-precision bearings

SKF VC444 Highly corrosion resistant bearings to fluid application e.g. compressors, pumps and mixers working under poor

lubrication

Page 82: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 10 [Code] SKF [Organisation]

Bearing steels –

Chemical compositions

C Si Mn Cr Mo Ni V N

AISI 52100 1.0 0.2 0.3 1.5 – 0.3 – –

ASTM M50 0.8 0.25 0.3 4.0 4.25 – 1.0 –

SKF W - 0.6 1.0 1.0 13 – 1.0 – –

AISI 440C 1.1 0.4 0.4 17 0.5 – – –

SKF V - 0.4 – – 15 1.6 – 0.3 0.2

SKF VC444 & VC4444

0.3 0.5 0.5 15 1.0 – – 0.4

Red

Important additive level for the specific steel. All compositions are approximations.VC444 –

Super-tough stainless bearing steel (High in nitrogen with fine martensitic

structure)VC4444 –

Variant of VC444, special hardening for cryogenic & high temperature stability

Page 83: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 11 [Code] SKF [Organisation]

VC444 steel,hybrid

Standardsteel, hybrid

Standard all-steel

VC444 steel,hybrid

Standardsteel, hybrid

Standard all-steel

Fatigue testing of the VC444 steel

Limited number of failures

Relative performance (L10

)

Reduced life (kappa<1)

Limited number of failures

Basic rating life (L

10

)

Adequate lubrication: Sub-surface fatigue

Poor lubrication: Surface fatigue

Page 84: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 12 [Code] SKF [Organisation]

Corrosion test –

Corrosion cell

-0,4 -0,2 0 0,2 0,4 0,6

SKF grade 3

M50

M50 NiL

440C

V -

VC444

Pitting potential voltage, E [Volts]

ResistantCorrode

Page 85: Anti Friction Bearings for Pumps

Corrosion -

AISI 52100 bearing steel

2011-11-04 ©SKF Slide 13 [Code] SKF [Organisation]

Severe general corrosion

Contact (crevice) corrosion

Test conditions: Sea (salt) water, 14 days

Presenter
Presentation Notes
Text slide with title, image and text [object & text] The image is cropped top and bottom using the SKF Supergraphic, aligns left with the typographic grid (Ctrl G) and bleeds off the edge of the slide area. The image will be ‘masked’ by the SKF Supergraphic and should be of sufficient size to fit within this space at 96ppi resolution. To ensure that your image is masked by the SKF Supergraphic, select the image and set as ‘send to back’, accessed via the ‘Draw>order’ menu. Colour images should be saved as RGB (Red Green Blue) .JPG (JPEG) format from your image editing application. Black and white images should be saved as grayscale .JPG files. The page folio, SKF Supergraphic and SKF corporate brand mark are not part of the ‘slide master’ and are separate elements, otherwise the image would hide these ‘slide master’ elements. We therefore recommend that you cut and paste this slide for use in your own presentation, then delete the current image, insert your own and set as ‘send to back’, accessed via the ‘Draw>order’ menu.
Page 86: Anti Friction Bearings for Pumps

Corrosion -

Stainless (martensitic) bearing steel

2011-11-04 ©SKF Slide 14 [Code] SKF [Organisation]

Steel type: "W -" similar to 440C

Crevice corrosion

Contact corrosion

Corrosion pits (spots)

Test conditions: Sea (salt) water, 14 days

Presenter
Presentation Notes
Text slide with title, image and text [object & text] The image is cropped top and bottom using the SKF Supergraphic, aligns left with the typographic grid (Ctrl G) and bleeds off the edge of the slide area. The image will be ‘masked’ by the SKF Supergraphic and should be of sufficient size to fit within this space at 96ppi resolution. To ensure that your image is masked by the SKF Supergraphic, select the image and set as ‘send to back’, accessed via the ‘Draw>order’ menu. Colour images should be saved as RGB (Red Green Blue) .JPG (JPEG) format from your image editing application. Black and white images should be saved as grayscale .JPG files. The page folio, SKF Supergraphic and SKF corporate brand mark are not part of the ‘slide master’ and are separate elements, otherwise the image would hide these ‘slide master’ elements. We therefore recommend that you cut and paste this slide for use in your own presentation, then delete the current image, insert your own and set as ‘send to back’, accessed via the ‘Draw>order’ menu.
Page 87: Anti Friction Bearings for Pumps

Corrosion -

SKF Super-tough stainless steel

2011-11-04 ©SKF Slide 15 [Code] SKF [Organisation]

Test conditions: => Sea (salt) water, 14 days

Material:=> High-nitrogen (martensitic)stainless steel

Very light contact corrosion mark

Growth of Sea acorn shells

SKF NoWear®

low friction coatingon the outer ring surfaces

Almost no corrosion attack

Presenter
Presentation Notes
Text slide with title, image and text [object & text] The image is cropped top and bottom using the SKF Supergraphic, aligns left with the typographic grid (Ctrl G) and bleeds off the edge of the slide area. The image will be ‘masked’ by the SKF Supergraphic and should be of sufficient size to fit within this space at 96ppi resolution. To ensure that your image is masked by the SKF Supergraphic, select the image and set as ‘send to back’, accessed via the ‘Draw>order’ menu. Colour images should be saved as RGB (Red Green Blue) .JPG (JPEG) format from your image editing application. Black and white images should be saved as grayscale .JPG files. The page folio, SKF Supergraphic and SKF corporate brand mark are not part of the ‘slide master’ and are separate elements, otherwise the image would hide these ‘slide master’ elements. We therefore recommend that you cut and paste this slide for use in your own presentation, then delete the current image, insert your own and set as ‘send to back’, accessed via the ‘Draw>order’ menu.
Page 88: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 16 [Code] SKF [Organisation]

Design data

Bearing material

Material properties

AISI 52100*

AISI440C

Super-tough bearing steel

(VC444)

Bearing grade silicon

nitride

Density (g/cm3)

7.9 7.8 7.7 3.2

Hardness HRC>58 (~ 700 HV)

– HRC>58 (~ 700 HV)

~ 1600 HV

Elastic module (GPa)

210 200 220 310

Electrical resistivity (Ωm)

0.4 x 10-6

(Conductor)–

(Conductor)0.8 x 10-6

(Conductor)1012

(Insulator)

Thermal expansion (10 –6/OC)

11.7 10.1 10.4 3

Thermal conductivity (W/mK)

~ 45 24 14 30

*Common bearing steel

Page 89: Anti Friction Bearings for Pumps

PEEK cages for severe conditions

2011-11-04 ©SKF Slide 17 [Code] SKF [Organisation]

Presenter
Presentation Notes
Section divider 4 The section divider slide is a useful way of breaking up a presentation. Five section dividers have been included in this document, each with its own unique SKF Supergraphic. If you require more than five section dividers, then simply copy and paste the five that have been provided and re-number them following the original sequence that is shown in this document. The SKF Supergraphic is placed as a graphic element on this slide in a fixed position. The number of the section always appears on its own line, with the title text appearing beneath. The text is in a fixed position which is aligned with the typographic grid (Ctrl G). Note: This slide does not exist as a ‘slide master’ therefore it is recommended that you copy and paste this slide into your presentation.
Page 90: Anti Friction Bearings for Pumps

Oil, Gas & Compressor parts of PEEK

2011-11-04 ©SKF Slide 18 [Code] SKF [Organisation]

Cable ties:• High temperature resistance• Chemical resistance

Electrical connectors:• Extreme depths • High pressures • High temperatures

Compressor parts:• Valve parts• Thrust Washers• Piston Rings• Wear resistance• Chemical resistance• Fatigue resistance

Bearing cages:• High temperature resistance• Chemical resistance• Fatigue resistance

Presenter
Presentation Notes
Image slide with title and multiple images The multiple images are cropped top and bottom using the SKF Supergraphic and bleed off the edge of the slide area. The images will be ‘masked’ by the SKF Supergraphic. To ensure that your images are masked by the SKF Supergraphic, select the images and set as ‘send to back’, accessed via the ‘Draw>order’ menu. Different numbers of images may be used together in this way, but take care not to clutter the content of the slide. Colour images should be saved as RGB (Red Green Blue) .JPG (JPEG) format from your image editing application. Black and white images should be saved as grayscale .JPG files. The page folio, SKF Supergraphic and SKF corporate brand mark are not part of the ‘slide master’ and are separate elements, otherwise the image would hide these ‘slide master’ elements. We therefore recommend that you cut and paste this slide for use in your own presentation, then delete the current image, insert your own and set as ‘send to back’, accessed via the ‘Draw>order’ menu.
Page 91: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 19 [Code] SKF [Organisation]

Properties of polymer materials for cages

SKF PEEK

L-PPS SKF PA 66

Glass fibre content [%] 15 40 25

Melting temperature [OC (0F) ] 343 (649) 275 (527) 255 (491)

Glass transition temp [OC (0F)] 143 (289) 94 (201) 70 (158)

Peak operating temperature [OC (0F)] 200 (392) – 150 (302)

Max operating temp in mineral oil [OC (0F)] 160 (320) 140 (284) 120 (248)

Max operating temp in EP oil [OC (0F)] 160 (320) – 100 (212)

Max operating temp in R-134a [OC (0F)] 160 (320) – 110 (230)

Max operating temp in ammonia [OC (0F)] 120 (248) – 70 (158)

Max high-speed temperature [OC (0F)] 150 (302) – 100 (212) -

120 (248)

PEEK –

Polyetheretherketone; L-PPS –

Linear Polyphenyl

Sulphide; PA66 –

Polyamide 6.6

Page 92: Anti Friction Bearings for Pumps

100 120 140 160 180 200bearing temperature [°C]

100

1000

10000

cage

age

ing

life

[hrs

]

PA66-GF25 PA46-GF25 PPA-GF25 PEEK-GF15

Bearing temperature vs. Cage ageing

2011-11-04 ©SKF Slide 20 [Code] SKF [Organisation]

PEEK advantages:•

Temperature stable (up to +200oC)

High-speed use (up to +150oC)

Chemical stable•

Good tribological

behaviour

Presenter
Presentation Notes
Text slide with title, image and text [object & text] The image is cropped top and bottom using the SKF Supergraphic, aligns left with the typographic grid (Ctrl G) and bleeds off the edge of the slide area. The image will be ‘masked’ by the SKF Supergraphic and should be of sufficient size to fit within this space at 96ppi resolution. To ensure that your image is masked by the SKF Supergraphic, select the image and set as ‘send to back’, accessed via the ‘Draw>order’ menu. Colour images should be saved as RGB (Red Green Blue) .JPG (JPEG) format from your image editing application. Black and white images should be saved as grayscale .JPG files. The page folio, SKF Supergraphic and SKF corporate brand mark are not part of the ‘slide master’ and are separate elements, otherwise the image would hide these ‘slide master’ elements. We therefore recommend that you cut and paste this slide for use in your own presentation, then delete the current image, insert your own and set as ‘send to back’, accessed via the ‘Draw>order’ menu.
Page 93: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 21 [Code] SKF [Organisation]

Ageing in gases –

Impact toughness & Strength

PEEK-GF15 LPPS-GF25 PA66-GF250

10

20

30

40

50

Impa

ct to

ughn

ess

[kJ/

m2 ]

Polymer materials for cages

Initial Wet H2S gas Ammonia R-134a

PEEK-GF15 LPPS-GF25 PA66-GF250

50

100

150

200

250

Stre

ngth

[MPa

]

Polymer materials for cages

Initial Wet H2S gas Ammonia R-134a

PEEK –

Polyetheretherketone; L-PPS –

Linear polyphenyl

sulphide; PA66 –

Polyamide 6.6

Presenter
Presentation Notes
Agenda
Page 94: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 22 [Code] SKF [Organisation]

Ageing in gases –

Failure strain

PEEK-GF15 LPPS-GF25 PA66-GF250

1

2

3

4

5Fa

ilure

str

ain

[%]

Polymer materials for cages

Initial Wet H2S gas Ammonia R-134a

PEEK –

Polyetheretherketone; L-PPS –

Linear polyphenyl

sulphide; PA66 –

Polyamide 6.6

Presenter
Presentation Notes
Agenda
Page 95: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 23 [Code] SKF [Organisation]

PEEK vs. other cage materials

PEEK vs. PA66 polymer:• Higher limiting speed• Higher operating temperature• Better chemical resistance

PEEK vs. Brass:• No limitation by NACE specifications• Better corrosion resistance• Lower weightPEEK vs. Steel:

• No wear• No smearing• Lower friction• Lower weight• Better availability• Better corrosion resistance

PEEK vs. L-PPS polymer:• Higher operating temperature• Better chemical resistance• Higher toughness

PEEK –

Polyetheretherketone; L-PPS –

Linear polyphenyl

sulfide; PA66 –

Polyamide 6.6

Page 96: Anti Friction Bearings for Pumps

2011-11-04 ©SKF Slide 24 [Code] SKF [Organisation]

Presenter
Presentation Notes
Impact slides Impact slides are used to emphasis key points in a presentation. They should be used sparingly. Type specifications are: 45pt/55pt SKF Chevin Light, four lines maximum. 75pt/112pt SKF Chevin Light, three lines maximum. A single word or phrase set to the width of the typographic grid. The background of these slides can be coloured any of the SKF corporate colours and the text is always coloured white.
Page 97: Anti Friction Bearings for Pumps

MRCBearingSolutionsfor Pumps

MRC Bearing Services

Page 98: Anti Friction Bearings for Pumps

Selection of the Proper Bearing Solution . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1

Relative Bearing Performance Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2

Why a Preload or Clearance? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4

Handling and Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5

Operating Viscosity Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6

“Bearing Reliability in Centrifugal Pumps” – The MRC® Pump School . . . . . . . . . . . . . . . . . . . . . . . 7

200S and 300S series single-row deep groove ball bearings (non-filling slot) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8

5200C and 5300C series 30º double-row angular contact ball bearings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14

5300UPG series 40º double-row angular contact ball bearings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20

7200DU and 7300DU series 29° angular contact ball bearings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24

7200PDU and 7300PDU series 40° angular contact ball bearings with land-guided, machined bronze cage . . . . . . . . . . . . .30

7200PJDE and 7300PJDE series 40° angular contact ball bearings with ball-centered cage and CB clearance . . . . . . . . . . . . .34

7200PJDU and 7300PJDU series 40° angular contact ball bearings with ball-centered cage and GA preload . . . . . . . . . . . . . .40

8000 series PumPac®

40º/15º angular contact ball bearings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .46

8000AAB series PumPac® Triplex 40°/40°/15° angular contact ball bearings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .50

8000BB series PumPac® Diamond 15°/15° angular contact ball bearings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .54

97000U2 (and 9000U) series 29° angular contact split inner ring ball bearing sets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .58

97000UP2 (and 9000UP) series 40° angular contact split inner ring ball bearing sets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .58

Table of Contents

Page 99: Anti Friction Bearings for Pumps
Page 100: Anti Friction Bearings for Pumps

1

The most common cause of pump bearing failure is not fatigueThrust bearings for centrifugal pumps seldomachieve the theoretical life specified by API andANSI standards. This is because pump bearingsusually fail from causes other than fatigue.

Causes include:• Impact • Static vibration• Contamination • Insufficient loading• Excessive thrust • Misalignment• Inadequate/ineffective

lubrication

Users tend to ignore the fact that bearings aredesigned for specific operating conditions anduse the same bearing for most pump applica-tions. Consequently, the 40O single-row angularcontact ball bearing is applied in applicationswhere it may not be the best choice.

High contact angle vs. low contact angleBearings with low contact angles are designedprimarily for radial loads. Bearings with highcontact angles are most suitable for thrust (axial)loads. Neither bearing does both well andcompromises are often required to achieveacceptable bearing performance. Pump applica-tions are not consistent and loads may vary fromhigh thrust, to near zero thrust, to thrust in theopposite direction. High contact angle bearingsrequire substantial thrust load in order to over-come the centrifugal and gyroscopic forcesacting on the balls and prevent ball skidding. (The higher the contact angle, the more thrustload required.) Low contact angle bearingsrequire little or no thrust load to prevent ballskidding. In addition, remember that only onebearing in a pair, mounted back-to-back or face-to-face, is thrust loaded. However, the unloadedbearing has the same minimum thrust loadrequirement as the loaded bearing. Therefore, anaxial preload must be applied to the pair to besure that both bearings have adequate thrustload to overcome the centrifugal and gyroscopicforces.

Assuring minimum required thrust loadOperating preload plus the external thrust on theprimary bearing is additive and the load may be

high enough to cause unacceptably highoperating temperatures. In this publication, theminimum required thrust load for all bearings islisted. To select the proper bearing, the externalloads, temperatures, shaft fits and speed mustbe considered. Only with this information can anoptimum bearing solution be found. If the aboveconditions cannot be determined, reasonableassumptions must be made in order to make theinitial bearing selection.

Reasonable assumptions are:• Open impellers develop relatively

high thrust load, usually toward theintake (suction)

• Closed impellers develop relativelylow thrust load, usually toward theintake (suction)

• Double suction impeller pumps(always closed) usually have little orno thrust load

• Thrust load in a direction opposite theintake (suction) is usually low

These assumptions should be used only as aguide for tentative bearing selection. Once thebearings have operated, the loads can be moreaccurately determined by observing the locationand width of the ball path on the raceways.

MRC offers the widest selection of ballbearings for pumps in the bearing industry A solution exists for nearly every combination ofloads and speeds. Start the selection processby referring to pages 2 and 3. The informationon these pages will guide you to the properbearings. Please contact MRC Bearing Servicesat 1-800-MRC-7000 for additional informationregarding bearing selection.

Bearings for Centrifugal Pumps:Selection of the Proper Bearing Solution

Page 101: Anti Friction Bearings for Pumps

PerformanceLevel

CharacteristicBall Bearing Type Contact

Angle

Extremely High

Very High

High

Moderate

Radial Axial Speed Radial ThrustStiffness Stiffness Capacity Capacity

30˚

Cage

ball-guided

one-piecepressed

steel

5200C and 5300C SeriesDouble-Row Angular Contact

2

MRC Bearing Services 1-800-MRC-7000

Extremely High

Very High

High

Moderate

ball-guided

two-piecepressed

steel

200S and 300S SeriesSingle-RowDeep Groove

Extremely High

Very High

High

Moderate

40˚

land-guided

one-piecemachined

bronze

97000UP2Duplex Tandem PairRadial & AxialLooseness inBearing System

Extremely High

Very High

High

Moderate

29˚

land-guided

one-piecemachined

bronze

97000U2Duplex Tandem PairRadial & Axial Looseness inBearing System

Extremely High

Very High

High

Moderate

15˚and15˚

land-guided

one-piecemachined

brass

8000BB SeriesPumPac DiamondBearing Set

Extremely High

Very High

High

Moderate

40˚and40˚and15˚

land-guided

one-piecemachined

brass

8000AAB SeriesPumPac TriplexBearing Set

Extremely High

Very High

High

Moderate

40˚and15˚

land-guided

one-piecemachined

brass

8000 SeriesPumPac Bearing Set

7200PDU and 7300PDU7200PJDE and 7300PJDE7200PJDU and 7300PJDUSingle-Row Angular ContactDuplex Pair

Extremely High

Very High

High

Moderate

40˚

designvaries with

bearingtype

(brass mat’l– all types)

Extremely High

Very High

High

Moderate

29˚

ball-guided

two-piecepressed

steel

7200DU and 7300DUSingle-Row Angular ContactDuplex Pair

Extremely High

Very High

High

Moderate

40˚

ball-guided

one-piecemachined

brass

5300UPG SeriesDouble-Row Angular ContactPump Bearing

Page 102: Anti Friction Bearings for Pumps

For moderate speed centrifugal pumps. Used as thrust bearing where high thrustloads are expected. A retrofit-free bearing upgrade for API 610 Standard (5th Edition)and ANSI pumps in order to meet ANSI+ standards.

SeePages

20 – 23

ApplicationsFor

Details

Most often used in ANSI pumps with moderate thrust loads. 5200C and 5300C seriesball bearings can also be used in the radial position when the radial load is excessivefor 200S and 300S series single-row deep groove ball bearings.

For moderate speed centrifugal pumps. Used as thrust bearings where highthrust loads are expected. Temperatures, loads, and shaft fits should beknown in order to establish proper preload or axial clearance.

For vertical or other types of pumps where endplay is not a major concern. Thisbearing type will be specified for speeds higher than those accommodated by the97000UP2 series. This product is often used in ethylene stirrer motor applications.

For vertical or other types of pumps, as well as electric motor applications, where anextremely high thrust load is possible. Often used in ethylene reactors and deep waterpumps.

For centrifugal pumps with heavy thrust loads that are not reversing or reverse onlymomentarily. Very effective as a thrust bearing in high speed pumps when directionof thrust is known. Forgiving in an application when thrust loads and temperatureshave not been determined.

Balanced pumps, operating with light or no thrust loads at high speeds. (Forexample, double suction impeller pumps; including the popular axially split case or“between bearings” design.) Similarly, pumps with closed impellers, balance holes,and pump-out vanes that result in light thrust loads.

Steady rest positions to accommodate radial load in centrifugal pumps.Most electric motors use this bearing to accommodate radial loads. Seldom used as a primary thrust bearing in centrifugal pumps.

For high speed centrifugal pumps. This bearing can run at higher speeds than the7200PDU and 7300PDU series and requires less thrust load to maintain propertraction forces between the ball and raceway surfaces.

SeePages

14 – 19

SeePages

24 – 29

SeePages

30 – 45

SeePages

58 – 61

SeePages

58 – 61

SeePages

46 – 49

SeePages

54 – 57

SeePages8 – 13

For pumps involving very heavy primary thrust loads. A PumPac “triplex” setcontains two 40° bearings in tandem matched back-to-back with one 15° bearing.

SeePages

50 – 53

3

Page 103: Anti Friction Bearings for Pumps

Bore Preload (unmounted)diameter Class

d GA GB GCover incl. N lbf N lbf N lbfmm min max min max min max min max min max min max

10 18 0 80 0 18 30 330 7 74 230 660 52 14818 30 0 120 0 27 40 480 9 108 340 970 76 21830 50 0 160 0 36 60 630 13 142 450 1280 101 288

50 80 0 380 0 85 140 1500 31 337 1080 3050 243 68680 120 0 410 0 92 150 1600 34 360 1150 3250 259 731120 180 0 540 0 121 200 2150 45 483 1500 4300 337 967

180 250 0 940 0 211 330 3700 74 832 2650 7500 596 1686250 315 0 1080 0 243 380 4250 85 955 3000 8600 674 1933

Bore Axial Internal Clearance (unmounted)diameter Class

d CA CB CCover incl. .001 mm .0001 in .001 mm .0001 in .001 mm .0001 inmm min max min max min max min max min max min max

– 10 4 12 1.6 4.7 14 22 5.5 8.7 22 30 8.7 1210 18 5 13 2.0 5.1 15 23 5.9 9.1 24 32 9.4 1318 30 7 15 2.8 5.9 18 26 7.1 10 32 40 13 16

30 50 9 17 3.5 6.7 22 30 8.7 12 40 48 16 1950 80 11 23 4.3 9.1 26 38 10 15 48 60 19 2480 120 14 26 5.5 10 32 44 13 17 55 67 22 26

120 180 17 29 6.7 11 35 47 14 19 62 74 24 29180 250 21 37 8.3 15 45 61 18 24 74 90 29 35250 315 26 42 10 17 52 68 20 27 90 106 35 42

4

MRC Bearing Services 1-800-MRC-7000

Angular contact bearings require a minimumthrust load to keep the balls tracking at thedesigned contact angle. With less than theminimum required thrust load, centrifugal forcewill cause the balls to track at different contactangles on the outer ring and inner ring raceways.This condition will eventually result in prematurebearing failure.

The thrust load is assured by providing anadequate operating preload. Operating preload is dependent upon:

• Manufactured preload/clearance• Shaft and housing fits• Temperature differential between the

inner and outer rings

Angular contact bearings with a high contactangle require a heavier minimum thrust load than a bearing with a low contact angle.

Due to this fact, bearings with a low contactangle like the MRC PumPac® Diamond 8000BBseries often work best in pumps where little orno thrust load is present and the loads areprimarily radial in nature.

MRC offers a wide range of angular contactbearings for various application conditions,including 15°, 29° and 40° contact anglebearings.

Call MRC Bearing Services at 1-800-MRC-7000 for assistance with selecting the proper bearing.

Why a Preload or Clearance?

MRC 7000PJDU bearings are stocked with the GA execution.

MRC 7000PJDE bearings are stocked with the CB execution.

These charts show the manufactured axial clearanceand preload standards for angular contact sets.

Back-to-back

Face-to-face

Back-to-back

Face-to-face

Page 104: Anti Friction Bearings for Pumps

5

ContaminationA high percentage of ball and roller bearingproblems can be attributed to foreign matterentering the system. Because bearings arehighly sensitive to dirt and moisture, care mustbe taken to keep the bearings and pump cavityclean. Testing has shown that particles passingthrough a filter as fine as 5 microns may causesevere damage. Experience has shown thatlubricating systems that pressurize the bearingcavity, such as air-oil-mist, greatly reducecontamination and increase bearing life.

LubricationGenerally, for ball bearings, it is a good rule toselect an oil that will have a viscosity of at least 70 SUS (13 cSt) at the bearing operating temper-ature. From the chart on page 6, the operatingviscosity of an ISO grade oil can be determined atthe bearing operating temperature. The frequencyof oil change depends upon the operatingconditions and the quality of the lubricant. Mineraloils oxidize and should be replaced at three monthintervals if operated continuously at 212° F (100° C).Longer intervals are possible at lower operatingtemperatures. Synthetic oils are more resistant todeterioration from exposure to high temperaturesand may allow for less frequent replacement. Earlyblackening of the oil strongly indicates a poorlubrication condition and can result from manysources. Multi-grade oils, and lubricants withdetergents and viscosity improvers, are notrecommended.

Shaft and Housing FitsThe standard recommended shaft and housingfits are included in the technical data section foreach individual bearing. The tolerances arethose recommended for bearings mounted onsolid steel shafts. The interference fit betweenthe bearing bore and the shaft journal causes areduction of clearance in the bearings and anincrease in operating preload. Excessive preloadmay result in a hot running condition. Bearingssuch as the 7000PDU that have a GA preload inthe unmounted condition usually employ a lightinterference fit such as an ISO h5 shaft fit. Withbearings that have internal axial clearance CB,heavier interference fits are usually acceptable.Each time a pump or motor is rebuilt, both theshaft diameter and bearing bore should bemeasured to be absolutely sure that both meetspecification and to eliminate the chance ofcreating excessive operating preload.

Stainless steel shafts have a higher coefficient of thermal expansion than carbon steel shafts.When bearings are installed on stainless steelshafts, it may be necessary to reduce theinterference fit and/or select a bearing havinggreater clearance.

Handling and Maintenance

Page 105: Anti Friction Bearings for Pumps

6

MRC Bearing Services 1-800-MRC-7000

Operating Viscosity Chart

Page 106: Anti Friction Bearings for Pumps

7

Recommended for• Service, maintenance, machine repair, and

plant/facility engineering staff of an industrialplant, OEM facility, institution, public utility, or commercial building who use rollingbearings and related equipment.

• Managers and technicians at industrial plantsand OEM facilities responsible for rollingbearing performance and reliability.

• Rotating equipment engineers, reliabilityengineers, millwrights, mechanics, andmaintenance supervisors.

All individuals should have direct involvement or responsibility for pump maintenance andinstallation.

Course ObjectiveTo provide attendees with a thorough knowledgeof the design, function, and maintenancerequirements of rolling bearings in a centrifugalpump. Additionally, the course describes thepreferred methods for installation, start up, andrun-in of rolling bearings in pumps. Lastly,troubleshooting and solutions for common pumpbearing problems are covered. Knowledge ofthese areas allows the attendee to be betterprepared to maximize the service life andreliability of pumps in their facility.

Course Schedule/LengthThe course is offered twice during the calendaryear. The first offering is during the spring of the year (April/May) and is held in Hanover, PA;while the second offering is during the autumn of the year (September/October) and is held inSan Diego, CA. The course is two days in length.Successful completion of the course will earnthe attendee 1.6 CEU’s.

Course DescriptionThe topics listed below are addressed in a seriesof lectures, discussions, and hands-onworkshops.

Pump classification and function• Different styles of pumps• General concepts of pump function• Theory and design of centrifugal pumps

(overhung impeller vs. split case)• Basic information on pump curves, head,

pressure/velocity relationships, specificspeed, best efficiency point (BEP), NPSHR vs. NPSHA, and cavitation

• Impeller and volute designs• Origins of radial and axial (thrust) loads

Bearing selection and internal dynamics• Bearing basics• Bearing selections for the radial and thrust

positions of a centrifugal pump; including API and ANSI specifications

• Axial clearance vs. preload• Appropriate contact angle and cage style• Fundamentals of lubrication; including

grease vs. oil, relubrication intervals,lubrication systems, vertical shafts, and compatibility issues

• Behavior of angular contact ball bearingsunder application conditions

Installation, maintenance, and troubleshooting• Shaft and housing fits• Hands-on workshop: Preferred methods of

mounting and dismounting ball bearings• Hands-on workshop: Bearing failure analysis;

including load zone interpretation, staticvibration (e.g. false brinelling), impact (e.g. brinelling), electrical arcing (e.g. fluting),misalignment, overloading, insufficientloading, parasitic loads, contamination,fretting corrosion, and inadequate/ineffectivelubrication

“Bearing Reliability in Centrifugal Pumps” – The MRC Pump School

Please contact our Reliability Maintenance Institute Toll Free: 1-866-753-7378 or visit us on the web at www.skfusa.com/rmi

for official schedule dates, tuition fees, and cancellation policy.

Page 107: Anti Friction Bearings for Pumps
Page 108: Anti Friction Bearings for Pumps

9

200S and 300S series single-row deep groove ball bearings (non-filling slot)

S-type bearings are used in the radial position innearly every centrifugal pump and are commonlyused in electric motors and magnetic drivepumps.

• ABEC-1• ABMA C3 internal radial clearance• Two-piece riveted steel cage

(no polyamide cages for petrochemical use)

• 30% full of polyurea grease in a bearing with double closures

The API 610 Standard recommends thatbearings, other than angular contact bearings,have greater than Normal internal radialclearance. All MRC single-row deep groove ballbearings, without filling slots, have greater thanNormal internal radial clearance (e.g. C3clearance) as standard.

MRC single-row deep groove ball bearings areassembled with a two-piece, riveted steel cage.API 610 strongly recommends against the use of filling slot bearings. MRC product is API 610compliant.

S-type bearings are available with a wideassortment of seals, shields and snap rings.

Sealed and shielded bearings are prepackedwith a premium quality polyurea grease suitablefor non-continuous operating temperatures ashigh as 300° F (150° C).

Hybrid BearingsMRC 200S and 300S series single-row deepgroove ball bearings are also manufactured ashybrid bearings. These bearings combine SAE52100 steel rings with silicon nitride (ceramic)rolling elements. They are typically utilized inapplications where there is ineffective lubrication,excessive contamination, or stray electricalcurrents. Even under poor lubrication conditions,metal-to-metal contact between the raceways andballs is eliminated due to the use of the ceramicmaterial. Hybrid bearings can achieve a servicelife which is three to thirty times longer than thestandard all-steel bearing under these adverseconditions. Most of the sizes found on thefollowing pages are available as hybrid bearings.For more information, please contact MRCBearing Services at 1-800-MRC-7000 and requestMRC Hybrid Ceramic Ball Bearings publicationM880-600.

A typical application of a single-rowdeep groove ball bearing in the radial

position of a centrifugal pump.

Page 109: Anti Friction Bearings for Pumps

204S 20 47 14 1.0 12700 6550 8 7.938.7874 1.8504 .5512 .04 2860 1470 .3125

205S 25 52 15 1.0 14000 7800 9 7.938.9843 2.0472 .5906 .04 3150 1750 .3125

206S 30 62 16 1.0 19500 11200 9.5251.1811 2.4409 .6299 .04 4380 2520 9 .3750

207S 35 72 17 1.0 25500 15300 11.1131.3780 2.8346 .6693 .04 5730 3440 9 .4375

208S 40 80 18 1.0 30700 19000 12.3041.5748 3.1496 .7087 .04 6900 4270 9 .4844

209S 45 85 19 1.0 33200 21600 12.3041.7717 3.3465 .7480 .04 7460 4860 10 .4844

210S 50 90 20 1.0 35100 23200 12.7001.9685 3.5433 .7874 .04 7890 5220 10 .5000

211S 55 100 21 1.5 43600 29000 14.2882.1654 3.9370 .8268 .06 9800 6520 10 .5625

212S 60 110 22 1.5 47500 32500 15.0832.3622 4.3307 .8661 .06 10700 7310 10 .5938

213S 65 120 23 1.5 55900 40500 15.8752.5591 4.7244 .9055 .06 12600 9110 11 .6250

214S 70 125 24 1.5 60500 45000 16.6702.7559 4.9213 .9449 .06 13600 10100 11 .6563

215S 75 130 25 1.5 66300 49000 17.4632.9528 5.1181 .9843 .06 14900 11000 11 .6875

216S 80 140 26 2.0 72800 53000 19.0503.1496 5.5118 1.0236 .08 16400 11900 10 .7500

217S 85 150 28 2.0 83200 64000 20.6383.3465 5.9055 1.1024 .08 18700 14400 10 .8125

218S 90 160 30 2.0 95600 73500 21.4333.5433 6.2992 1.1811 .08 21500 16500 11 .8438

219S 95 170 32 2.0 108000 81500 10 23.8123.7402 6.6929 1.2598 .08 24300 18300 .9375

220S 100 180 34 2.0 124000 93000 10 25.4003.9370 7.0866 1.3386 .08 27900 20900 1.0000

221S 105 190 36 2.0 133000 104000 10 26.9884.1339 7.4803 1.4173 .08 29900 23400 1.0625

222S 110 200 38 2.0 143000 118000 10 28.5754.3307 7.8740 1.4961 .08 32100 26500 1.1250

224S 120 215 40 2.0 146000 118000 9 30.1634.7244 8.4646 1.5748 .08 32800 26500 1.1875

MRC BOREOUTSIDE

WIDTH FILLET RADIUS

1) BASIC RADIAL LOAD RATING BALLS PER ROW

BEARING dDIAMETER

B raDYNAMIC 3) STATIC

NUMBERDIAMETER

NUMBER mmD

mm mm C Co mmin

mmin in N N

inin lbf lbf

10

MRC Bearing Services 1-800-MRC-7000

1) Fillet radius indicates maximum fillet radius on shaft or in housing which bearing corner will clear2) Values have been determined through historical application and practice3) Rating for one million revolutions or 500 hours at 331⁄3 RPM

200S series single-row deep groove ball bearings (non-filling slot)

Page 110: Anti Friction Bearings for Pumps

PITCH SPEED RATING 2) RECOMMENDED SHAFT DIAMETER (k5) RECOMMENDED HOUSING DIAMETER (H6)

DIAMETERGREASE OIL MAXIMUM MINIMUM MAXIMUM MINIMUMmm

RPM RPM mm mm mm mmin in in inin

33.5 15000 18000 20.011 20.002 47.016 47.0001.3189 .7878 .7875 1.8510 1.8504

39.0 12000 15000 25.011 25.002 52.019 52.0001.5370 .9847 .9844 2.0479 2.0472

46.0 10000 13000 30.011 30.002 62.019 62.0001.8110 1.1815 1.1812 2.4416 2.4409

53.5 9000 11000 35.013 35.002 72.019 72.0002.1063 1.3785 1.3781 2.8353 2.8346

60.0 8500 10000 40.013 40.002 80.019 80.0002.3622 1.5753 1.5749 3.1503 3.1496

65.0 7500 9000 45.013 45.002 85.022 85.0002.5591 1.7722 1.7718 3.3474 3.3465

70.0 7000 8500 50.013 50.002 90.022 90.0002.7559 1.9690 1.9686 3.5442 3.5433

77.5 6300 7500 55.015 55.002 100.022 100.0003.0512 2.1660 2.1655 3.9379 3.9370

84.5 6000 7000 60.015 60.002 110.022 110.0003.3268 2.3628 2. 3623 4.3316 4.3307

92.8 5300 6300 65.015 65.002 120.022 120.0003.6535 2.5597 2.5592 4.7253 4.7244

97.5 5000 6000 70.015 70.002 125.025 125.0003.8386 2.7565 2.7560 4.9223 4.9213

102.5 4800 5600 75.015 75.002 130.025 130.0004.0354 2.9534 2.9529 5.1191 5.1181

110.0 4500 5300 80.015 80.002 140.025 140.0004.3307 3.1502 3.1497 5.5128 5.5118

117.5 4300 5000 85.018 85.003 150.025 150.0004.6260 3.3472 3.3466 5.9065 5.9055

125.3 3800 4500 90.018 90.003 160.025 160.0004.9331 3.5440 3.5434 6.3002 6.2992

132.5 3600 4300 95.018 95.003 170.025 170.0005.2166 3.7409 3.7403 6.6939 6.6929

140.0 3400 4000 100.018 100.003 180.025 180.0005.5118 3.9377 3.9371 7.0876 7.0866

147.5 3200 3800 105.018 105.003 190.029 190.0005.8071 4.1346 4.1340 7.4814 7.4803

155.0 3000 3600 110.018 110.003 200.029 200.0006.1024 4.3314 4.3308 7.8751 7.8740

167.5 2800 3400 120.018 120.003 215.029 215.0006.5945 4.7251 4.7245 8.4657 8.4646

11

Page 111: Anti Friction Bearings for Pumps

12

MRC Bearing Services 1-800-MRC-7000

1) Fillet radius indicates maximum fillet radius on shaft or in housing which bearing corner will clear2) Values have been determined through historical application and practice3) Rating for one million revolutions or 500 hours at 331⁄3 RPM

300S series single-row deep groove ball bearings (non-filling slot)

304S 20 52 15 1.0 15900 7800 7 9.525.7874 2.0472 .5906 .04 3570 1750 .3750

305S 25 62 17 1.0 21200 10800 7 11.500.9843 2.4409 .6693 .04 4760 2430 .4528

306S 30 72 19 1.0 28100 16000 12.3041.1811 2.8346 .7480 .04 6320 3600 8 .4844

307S 35 80 21 1.5 33200 19000 13.4951.3780 3.1496 .8268 .06 7460 4270 8 .5313

308S 40 90 23 1.5 41000 24000 15.0831.5748 3.5433 .9055 .06 9220 5400 8 .5938

309S 45 100 25 1.5 52700 31500 17.4631.7717 3.9370 .9843 .06 11900 7080 8 .6875

310S 50 110 27 2.0 61800 38000 19.0501.9685 4.3307 1.0630 .08 13900 8540 8 .7500

311S 55 120 29 2.0 71500 45000 20.6382.1654 4.7244 1.1417 .08 16100 10100 8 .8125

312S 60 130 31 2.0 81900 52000 22.2252.3622 5.1181 1.2205 .08 18400 11700 8 .8750

313S 65 140 33 2.0 92300 60000 23.8132.5591 5.5118 1.2992 .08 20800 13500 8 .9375

314S 70 150 35 2.0 104000 68000 25.4002.7559 5.9055 1.3780 .08 23400 15300 8 1.0000

315S 75 160 37 2.0 114000 76500 26.9882.9528 6.2992 1.4567 .08 25600 17200 8 1.0625

316S 80 170 39 2.0 124000 86500 28.5753.1496 6.6929 1.5354 .08 27900 19400 8 1.1250

317S 85 180 41 2.5 133000 96500 30.1633.3465 7.0866 1.6142 .10 29900 21700 8 1.1875

318S 90 190 43 2.5 143000 108000 31.7503.5433 7.4803 1.6929 .10 32100 24300 8 1.2500

319S 95 200 45 2.5 153000 118000 8 33.3383.7402 7.8740 1.7717 .10 34400 26500 1.3125

320S 100 215 47 2.5 174000 140000 8 36.5133.9370 8.4646 1.8504 .10 39100 31500 1.4375

321S 105 225 49 2.5 182000 153000 8 38.1004.1339 8.8583 1.9291 .10 40800 34400 1.5000

322S 110 240 50 2.5 203000 180000 8 41.2754.3307 9.4488 1.9685 .10 45600 40500 1.6250

324S 120 260 55 2.5 208000 186000 8 41.2754.7244 10.2362 2.1654 .10 46800 41800 1.6250

MRC BOREOUTSIDE

WIDTH FILLET RADIUS

1) BASIC RADIAL LOAD RATING BALLS PER ROW

BEARING dDIAMETER

B raDYNAMIC 3) STATIC

NUMBERDIAMETER

NUMBER mmD

mm mm C Co mmin

mmin in N N

inin lbf lbf

Page 112: Anti Friction Bearings for Pumps

13

PITCH SPEED RATING 2) RECOMMENDED SHAFT DIAMETER (k5) RECOMMENDED HOUSING DIAMETER (H6)

DIAMETERGREASE OIL MAXIMUM MINIMUM MAXIMUM MINIMUMmm

RPM RPM mm mm mm mmin in in inin

36.0 13000 16000 20.011 20.002 52.019 52.0001.4173 .7878 .7875 2.0479 2.0472

43.5 11000 14000 25.011 25.002 62.019 62.0001.7126 .9847 .9844 2.4416 2.4409

52.0 30.011 30.002 72.019 72.0002.0472 9000 11000 1.1815 1.1812 2.8353 2.8346

57.5 35.013 35.002 80.019 80.0002.2638 8500 10000 1.3785 1.3781 3.1503 3.1496

65.0 40.013 40.002 90.022 90.0002.5591 7500 9000 1.5753 1.5749 3.5442 3.5433

72.5 6700 8000 45.013 45.002 100.022 100.0002.8543 1.7722 1.7718 3.9379 3.9370

80.0 50.013 50.002 110.022 110.0003.1496 6300 7500 1.9690 1.9686 4.3316 4.3307

87.5 55.015 55.002 120.022 120.0003.4449 5600 6700 2.1660 2.1655 4.7253 4.7244

95.0 60.015 60.002 130.025 130.0003.7402 5000 6000 2.3628 2.3623 5.1191 5.1181

102.5 65.015 65.002 140.025 140.0004.0354 4800 5600 2.5597 2.5592 5.5128 5.5118

110.0 70.015 70.002 150.025 150.0004.3307 4500 5300 2.7565 2.7560 5.9065 5.9055

117.5 75.015 75.002 160.025 160.0004.6260 4300 5000 2.9534 2.9529 6.3002 6.2992

125.0 80.015 80.002 170.025 170.0004.9213 3800 4500 3.1502 3.1497 6.6939 6.6929

132.5 85.018 85.003 180.025 180.0005.2165 3600 4300 3.3472 3.3466 7.0876 7.0866

140.0 90.018 90.003 190.029 190.0005.5118 3400 4000 3.5440 3.5434 7.4814 7.4803

147.5 3200 3800 95.018 95.003 200.029 200.0005.8071 3.7409 3.7403 7.8751 7.8740

157.5 3000 3600 100.018 100.003 215.029 215.0006.2008 3.9377 3.9371 8.4657 8.4646

165.0 2800 3400 105.018 105.003 225.029 225.0006.4961 4.1346 4.1340 8.8594 8.8583

175.0 2600 3200 110.018 110.003 240.029 240.0006.8898 4.3314 4.3308 9.4499 9.4488

190.0 2400 3000 120.018 120.003 260.032 260.0007.4803 4.7251 4.7245 10.2375 10.2362

Page 113: Anti Friction Bearings for Pumps
Page 114: Anti Friction Bearings for Pumps

Double-row angular contact ball bearings areused extensively in ANSI standard centrifugalpumps and some older API style pumps. Theyare typically used as the primary thrust bearing;however, in some rare cases, they have beenused as the radial bearing of some pumps andmotors. MRC 5000C bearings are compliant withANSI requirements. Double-row bearings withball loading grooves (filling slots) are notrecommended for pump applications.

Proven Track RecordLong service life and reliable performance haveearned MRC angular contact ball bearings anexcellent reputation in the pump industry. Thestandard product features which have contributedto this exceptional performance include: ABEC-1precision tolerances, a 30° contact angle per row,ABMA C3 internal radial clearance, one-piece heattreated pressed steel cages, as well as multiplesealing options. In addition, the contact anglesdiverge inwardly, which provides greater rigidityand increased resistance to misalignment. Thesefeatures have allowed MRC double-row bearingsto accommodate combined axial and radial loads,high speeds, poor lubrication conditions, andcontaminated environments.

Technical Improvements*Improved materialsMRC double-row angular contact ball bearingsare manufactured from an extremely high qualitybearing steel with a very low oxygen content anda minimum number of impurities. The rings aremanufactured from cold rolled blanks, and bothrings are heat treated to provide dimensionalstability up to 300° F (150° C). These advantagesallow the bearings to maintain built-in clearancesover their entire service life.

Improved internal geometryTwenty-first century computer-aided design andmanufacturing programs have permitted subtle

improvements in the bearings. These small, buteffective, modifications to the bearing’s internalgeometry lead to measurable improvements inboth performance and service life. One benefit ofthis fine tuning is that MRC double-row ballbearings are less sensitive to axial overloading.

Improved precision tolerancesMRC double-row angular contact ball bearingsare manufactured to ABEC-3 (P6) dimensionaland running accuracies. This feature providessmoother and truer operation with less heatgeneration, lower vibration, and more preciseshaft guidance.

Improved ball qualityThe balls used in MRC double-row angularcontact ball bearings are one ISO grade betterthan the balls previously utilized. The moreprecise ball diameter improves running accuracyeven at high speeds, while reducing noise andbearing operating temperature.

New crown cageMRC double-row angular contact ball bearingshave a newly developed one-piece crown cageof heat-treated pressed steel. The new cagedesign will allow for improved ball guidance andbetter lubricant film formation.

*While a significant number of the bearings incorporate thetechnical improvements described above, the implementationof the improvements across the entire product range is anongoing process. Please contact MRC before ordering todetermine which sizes have been converted.

15

5200C and 5300C series 30º double-row angular contact ball bearings

Typical application of double rowbearing in an ANSI process pump.

Page 115: Anti Friction Bearings for Pumps

16

MRC Bearing Services 1-800-MRC-7000

1) Fillet radius indicates maximum fillet radius on shaft or in housing which bearing corner will clear2) For thrust rating, multiply C by 0.81 and Co by 1.523) Values have been determined through historical application and practice4) Rating for one million revolutions or 500 hours at 331⁄3 RPM5) Based on 1800 RPM for 5218C through 5222C6) Based on an oil viscosity of 16 centistokes (mm2/s) at bearing operating temperature

5200C series 30º double-row angular contact ball bearings

BORE OUTSIDE WIDTH FILLET 1) BASIC RADIAL LOAD RATING 2) BALLS PER ROWMRC DIAMETER RADIUS

BEARINGra

DYNAMIC 4) STATIC NUMBER DIAMETERNUMBER d D B C Co

mm mm mm mm N N mmin in in in lbf lbf in

20 47 20.64 1.0 19000 12000 8 7.9385204C .7874 1.8504 .8125 .04 4270 2700 .3125

25 52 20.64 1.0 20800 14000 9 7.9385205C .9843 2.0472 .8125 .04 4680 3150 .3125

30 62 23.81 1.0 28600 20400 9.5255206C 1.1811 2.4409 .9375 .04 6430 4590

9.3750

35 72 26.99 1.0 37700 27500 11.1135207C 1.3780 2.8346 1.0625 .04 8480 6180

9.4375

40 80 30.16 1.0 44900 34000 12.3045208C 1.5748 3.1496 1.1875 .04 10100 7640

9.4844

45 85 30.16 1.0 48800 39000 12.3045209C 1.7717 3.3465 1.1875 .04 11000 8770

10.4844

50 90 30.16 1.0 48800 39000 12.3045210C 1.9685 3.5433 1.1875 .04 11000 8770

10.4844

55 100 33.34 1.5 57200 47500 13.4955211C 2.1654 3.9370 1.3125 .06 12900 10700

10.5313

60 110 36.51 1.5 70200 58500 15.0835212C 2.3622 4.3307 1.4375 .06 15800 13200

10.5938

65 120 38.10 1.5 80600 73500 15.8755213C 2.5591 4.7244 1.5000 .06 18100 16500

11.6250

70 125 39.69 1.5 88400 80000 16.6705214C 2.7559 4.9213 1.5625 .06 19900 18000

11.6563

75 130 41.28 1.5 95600 88000 17.4635215C 2.9528 5.1181 1.6250 .06 21500 19800

11.6875

80 140 44.45 2.0 106000 95000 19.0505216C 3.1496 5.5118 1.7500 .08 23900 21400

10.7500

85 150 49.21 2.0 124000 110000 20.6385217C 3.3465 5.9055 1.9375 .08 27900 24700

10.8125

90 160 52.39 2.0 130000 120000 21.4335218C 3.5433 6.2992 2.0625 .08 29300 27000

10.8438

95 170 55.56 2.0 159000 146000 10 23.8125219C 3.7402 6.6929 2.1875 .08 35700 32800 .9375

100 180 60.33 2.0 178000 166000 10 25.4005220C 3.9370 7.0866 2.3750 .08 40000 37300 1.0000

110 200 69.85 2.0 203000 200000 10 25.4005222C 4.3307 7.8740 2.7500 .08 45600 45000 1.0000

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17

32.9 101 874 9000 13000 20.011 20.002 47.016 47.0001.2965 23 197 .7878 .7875 1.8510 1.8504

37.7 133 957 8000 11000 25.011 25.002 52.019 52.0001.4839 30 216 .9847 .9844 2.0479 2.0472

46.0 190 1315 30.011 30.002 62.019 62.0001.8110 43 296

7000 95001.1815 1.1812 2.4416 2.4409

52.5 257 1733 35.013 35.002 72.019 72.0002.0663 58 390

6000 80001.3785 1.3781 2.8353 2.8346

58.7 323 2064 40.013 40.002 80.019 80.0002.3122 73 465

5600 75001.5753 1.5749 3.1503 3.1496

65.0 379 2244 45.013 45.002 85.022 85.0002.5591 85 506

5000 67001.7722 1.7718 3.3474 3.3465

68.9 439 2244 50.013 50.002 90.022 90.0002.7107 99 506

4800 63001.9690 1.9686 3.5442 3.5433

75.4 538 2630 55.015 55.002 100.022 100.0002.9682 121 593

4300 56002.1660 2.1655 3.9379 3.9370

82.5 647 3227 60.015 60.002 110.022 110.0003.2464 146 727

3800 50002.3628 2.3623 4.3316 4.3307

93.5 766 3705 65.015 65.002 120.022 120.0003.6818 173 833

3600 48002.5597 2.5592 4.7253 4.7244

97.5 851 4064 70.015 70.002 125.025 125.0003.8386 192 915

3200 43002.7565 2.7560 4.9223 4.9213

101.5 941 4395 75.015 75.002 130.025 130.0003.9955 212 989

3200 43002.9534 2.9529 5.1191 5.1181

108.4 1083 4873 80.015 80.002 140.025 140.0004.2685 244 1099

2800 38003.1502 3.1497 5.5128 5.5118

115.6 1236 5700 85.018 85.003 150.025 150.0004.5502 278 1283

2600 36003.3472 3.3466 5.9065 5.9055

123.5 881 5) 7529 5) 90.018 90.003 160.025 160.0004.8629 199 1697

2400 34003.5440 3.5434 6.3002 6.2992

132.6 990 5) 9209 5)2200 3200 95.018 95.003 170.025 170.000

5.2185 223 2068 3.7409 3.7403 6.6939 6.6929

140.1 1105 5) 10309 5)2000 3000 100.018 100.003 180.025 180.000

5.5138 249 2317 3.9377 3.9371 7.0876 7.0866

154.9 1355 5) 11757 5)1600 2600 110.018 110.003 200.029 200.000

6.0984 305 2641 4.3314 4.3308 7.8751 7.8740

PITCH MIN. REQD. 5)

THRUST FOR 5)

SPEED RATING 3) RECOMMENDED RECOMMENDED

DIAMETER RADIAL LOAD 25000 HRS SHAFT DIAMETER (k5) HOUSING DIAMETER (H6)

mm AT 3600 RPM L10 AT 3600 RPM GREASE OIL MAXIMUM MINIMUM MAXIMUM MINIMUMin N N mm mm mm mm

lbf 6) lbf RPM RPM in in in in

Page 117: Anti Friction Bearings for Pumps

18

MRC Bearing Services 1-800-MRC-7000

1) Fillet radius indicates maximum fillet radius on shaft or in housing which bearing corner will clear2) For thrust rating, multiply C by 0.81 and Co by 1.523) Values have been determined through historical application and practice4) Rating for one million revolutions or 500 hours at 331⁄3 RPM5) Based on 1800 RPM for 5316C through 5322C6) Based on an oil viscosity of 16 centistokes (mm2/s) at bearing operating temperature

5300C series 30º double-row angular contact ball bearings

BORE OUTSIDE WIDTH FILLET 1) BASIC RADIAL LOAD RATING 2) BALLS PER ROWMRC DIAMETER RADIUS

BEARINGra

DYNAMIC 4) STATIC NUMBER DIAMETERNUMBER d D B C Co

mm mm mm mm N N mmin in in in lbf lbf in

5304C 20 52 22.23 1.0 22500 14600 8 8.731.7874 2.0472 .8750 .04 5060 3280 .3438

5305C 25 62 25.40 1.0 30700 20400 8 10.319.9843 2.4409 1.0000 .04 6910 4590 .4063

5306C 30 72 30.16 1.0 41600 29000 8 12.3041.1811 2.8346 1.1875 .04 9360 6520 .4844

5307C 35 80 34.93 1.5 49400 34500 8 13.4951.3780 3.1496 1.3750 .06 11100 7760 .5313

5308C 40 90 36.51 1.5 60500 43000 8 15.0831.5748 3.5433 1.4375 .06 13600 9760 .5938

5309C 45 100 39.69 1.5 72800 53000 8 16.6701.7717 3.9370 1.5625 .06 16400 11900 .6563

5310C 50 110 44.45 2.0 85200 64000 8 18.2581.9685 4.3307 1.7500 .08 19200 14400 .7188

5311C 55 120 49.21 2.0 106000 81500 8 20.6382.1654 4.7244 1.9375 .08 23900 18300 .8125

5312C 60 130 53.98 2.0 121000 95000 8 22.2252.3622 5.1181 2.1250 .08 27200 21400 .8750

5313C 65 140 58.74 2.0 138000 108000 8 23.8132.5591 5.5118 2.3125 .08 31100 24300 .9375

5314C 70 150 63.50 2.0 153000 125000 8 25.4002.7559 5.9055 2.5000 .08 34400 28100 1.0000

5315C 75 160 68.26 2.0 168000 140000 8 26.9882.9528 6.2992 2.6875 .08 37800 31500 1.0625

5316C 80 170 68.26 2.0 182000 156000 8 28.5753.1496 6.6929 2.6875 .08 41000 35100 1.1250

5317C 85 180 73.03 2.5 195000 176000 8 30.1633.3465 7.0866 2.8750 .10 43900 39600 1.1875

5318C 90 190 73.03 2.5 212000 196000 8 31.7503.5433 7.4803 2.8750 .10 47700 44100 1.2500

5319C 95 200 77.79 2.5 234000 224000 8 34.1313.7402 7.8740 3.0625 .10 52700 50400 1.3438

5320C 100 215 82.55 2.5 255000 255000 8 36.5133.9370 8.4646 3.2500 .10 57300 57300 1.4375

5322C 110 240 92.08 2.5 291000 305000 8 39.6884.3307 9.4488 3.6250 .10 65400 68600 1.5625

Page 118: Anti Friction Bearings for Pumps

19

PITCH MIN. REQD.5)

THRUST FOR5)

SPEED RATING 3) RECOMMENDED RECOMMENDED

DIAMETER RADIAL LOAD 25000 HRS SHAFT DIAMETER (k5) HOUSING DIAMETER (H6)

mm AT 3600 RPM L10 AT 3600 RPM GREASE OIL MAXIMUM MINIMUM MAXIMUM MINIMUMin N N mm mm mm mm

lbf 6) lbf RPM RPM in in in in

36.6 136 1035 8500 12000 20.011 20.002 52.019 52.0001.4406 31 233 .7878 .7875 2.0479 2.0472

43.5 198 1412 7500 10000 25.011 25.002 62.019 62.0001.7126 45 318 .9847 .9844 2.4416 2.4409

51.3 272 1913 6300 8500 30.011 30.002 72.019 72.0002.0215 62 431 1.1815 1.1812 2.8353 2.8346

56.2 346 2271 5600 7500 35.013 35.002 80.019 80.0002.2138 78 511 1.3785 1.3781 3.1503 3.1496

63.0 442 2782 5000 6700 40.013 40.002 90.022 90.0002.4790 100 626 1.5753 1.5749 3.5442 3.5433

70.0 549 3347 4500 6000 45.013 45.002 100.022 100.0002.7544 124 754 1.7722 1.7718 3.9379 3.9370

77.5 669 3917 4000 5300 50.013 50.002 110.022 110.0003.0512 151 883 1.9690 1.9686 4.3316 4.3307

86.2 800 4873 3800 5000 55.015 55.002 120.022 120.0003.3949 180 1099 2.1660 2.1655 4.7253 4.7244

93.4 943 5563 3400 4500 60.015 60.002 130.025 130.0003.6777 212 1251 2.3628 2.3623 5.1191 5.1181

101.0 1097 6344 3200 4300 65.015 65.002 140.025 140.0003.9754 247 1430 2.5597 2.5592 5.5128 5.5118

109.1 1264 7033 2800 3800 70.015 70.002 150.025 150.0004.2954 284 1582 2.7565 2.7560 5.9065 5.9055

114.0 1442 7723 2600 3600 75.015 75.002 160.025 160.0004.4870 325 1738 2.9534 2.9529 6.3002 6.2992

124.0 1028 5) 10541 5)2400 3400 80.015 80.002 170.025 170.000

4.8804 232 2375 3.1502 3.1497 6.6939 6.6929

131.4 1155 5) 11294 5)2200 3200 85.018 85.003 180.025 180.000

5.1734 260 2543 3.3472 3.3466 7.0876 7.0866

138.8 1290 5) 12278 5)2000 3000 90.018 90.003 190.029 190.000

5.4664 290 2763 3.5440 3.5434 7.4814 7.4803

147.5 1431 5) 13553 5)1900 2800 95.018 95.003 200.029 200.000

5.8071 322 3053 3.7409 3.7403 7.8751 7.8740

156.0 1632 5) 14769 5)1800 2600 100.018 100.003 215.029 215.000

6.1417 367 3319 3.9377 3.9371 8.4657 8.4646

175.0 2015 5) 16854 5)1700 2400 110.018 110.003 240.029 240.000

6.8898 453 3788 4.3314 4.3308 9.4499 9.4488

Page 119: Anti Friction Bearings for Pumps
Page 120: Anti Friction Bearings for Pumps

21

Upgrading the double-row angular contact ball bearings in API 610 Standard, 5th Editionand ANSI-style pumps to duplexed single-rowangular contact ball bearings to meet ANSI +standards typically meant expensive and time-consuming modifications.

MRC has taken the features of the industry leading 7000PJDE single-row angular contactball bearing and incorporated them into thestandard double-row angular contact ballbearing’s dimensional package.

• Machined brass cage• CB axial internal clearance• ABEC-3 (P6) tolerances

Each feature of the MRC Pump Bearing directlyaddresses the most common operationalchallenges faced by ANSI-style pumps: highloads and poor lubrication—which lead to highbearing operating temperatures—lubricantdegradation, and ultimately premature failure.

40° Contact AngleSteeper than the contact angle of the standarddouble-row angular contact ball bearing, the Pump Bearing’s 40° contact angle gives the bearing increased thrust capacity.

Machined Brass CageProven in single-row angular contact ball bearingsto be robust for performance in heavy duty andpoor lubrication conditions. Takes longer to failand produces noise on impending failure,therefore giving operators a longer time to reactfor maintenance and effectively reducingunexpected downtime.

CB Axial Internal ClearanceBuilding on the success of the reduced end play in single-row angular contacts, the PumpBearing’s new optimized axial clearance pro-motes load sharing between the two rows ofballs and reduces the possibility of skidding in the inactive ball set.

ABEC-3 (P6) Tolerances A feature found in MRC single-row angularcontact ball bearings, ABEC 3 (P6) tolerancescontribute to better control of the bearing’smounted condition and, ultimately, smootherbearing operation.

The MRC Pump Bearing

U = Split inner ringP = 40O contact angleG = Snap ring (standard)

5300UPG series 40º double-row angular contact ball bearings

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22

MRC Bearing Services 1-800-MRC-7000

1) Fillet radius indicates maximum fillet radius on shaft or in housing which bearing corner will clear2) For thrust rating, multiply C by 1.08 and Co by 1.933) Values have been determined through historical application and practice4) Rating for one million revolutions or 500 hours at 331⁄3 RPM

The MRC Pump Bearing is equipped with robust machined brasscages that perform better in heavy duty applications and marginallubrication conditions.

The MRC Pump Bearing’s dimensions are identical to those forstandard DRACBB’s with comparable bore sizes.

5300UPG series 40º double-row angular contact ball bearings

BORE OUTSIDE WIDTH FILLET 1) BASIC RADIAL LOAD RATING 2) BALLS PER ROWMRC DIAMETER RADIUS

BEARINGra

DYNAMIC 4) STATIC NUMBER DIAMETERNUMBER d D B C Co

mm mm mm mm N N mmin in in in lbf lbf in

5308UPG 40 90 36.51 1.5 49400 41500 11 12.7001.5748 3.5433 1.4375 .06 11110 9330 .5000

5309UPG 45 100 39.69 1.5 61800 52000 11 14.2881.7717 3.9370 1.5625 .06 13890 11690 .5625

5310UPG 50 110 44.45 2.0 81900 69500 11 16.6691.9685 4.3307 1.7500 .08 18410 15620 .6563

5311UPG 55 120 49.21 2.0 95600 83000 11 18.2562.1654 4.7244 1.9375 .08 21490 18660 .7188

5313UPG 65 140 58.74 2.1 138000 122000 11 22.2252.5591 5.5118 2.3125 .08 31000 27400 .8750

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During operation, one row of balls in the MRC Pump Bearing supports the primary axial load, while the other row of balls handles thrust in the opposite direction.

PITCH MIN. REQD. THRUST FOR SPEED RATING 3) RECOMMENDED RECOMMENDED

DIAMETER THRUST LOAD 25000 HRS SHAFT DIAMETER (k5) HOUSING DIAMETER (H6)

mm AT 3600 RPM L10 AT 3600 RPM GREASE OIL MAXIMUM MINIMUM MAXIMUM MINIMUMin N N mm mm mm mm

lbf lbf RPM RPM in in in in

65.0 122 3028 5000 6700 40.013 40.002 90.022 90.0002.5591 28 681 1.5753 1.5749 3.5442 3.5433

72.5 193 3788 4500 6000 45.013 45.002 100.022 100.0002.8543 44 852 1.7722 1.7718 3.9379 3.9370

80.0 334 5020 4000 5300 50.013 50.002 110.022 110.0003.1496 76 1129 1.9690 1.9686 4.3316 4.3307

87.5 480 5860 3800 5000 55.015 55.002 120.022 120.0003.4449 108 1318 2.1660 2.1655 4.7253 4.7244

102.5 1004 8458 3200 4300 65.015 65.002 140.025 140.0004.0354 226 1900 2.5597 2.5592 5.5128 5.5118

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Page 124: Anti Friction Bearings for Pumps

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7200DU and 7300DU series 29° angular contact ball bearings

The MRC 7000DU series is a medium contactangle bearing. Similar in design to the MRC7000PDU series, the lower contact angle allows for higher speeds, lower thrust loadrequirements and greater radial loads.

• ABEC-1• Heavy-stock, stamped steel cages• GA preload• Stocked as universally ground half pairs

Due to the 29° contact angle and smaller balls,this bearing can run with a relatively low thrustload. It also runs well with a combination ofmoderate thrust and radial load.

The 7000DU series should be considered forapplications where thrust is moderate and thepump has a history of running hot. Many olderstyle API pumps were equipped with the 7000DUbearing-type. When replaced with a 40° angularcontact bearing, these older pumps often runmuch hotter.

These bearings are stocked with flush groundfaces (GA preload). When heavier thanrecommended shaft interferences are employed,a bearing with an axial clearance (CB) may benecessary. Special axial clearances can beobtained on a Made-To-Order basis.

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MRC Bearing Services 1-800-MRC-7000

1) Fillet radius indicates maximum fillet radius on shaft or in housing which bearing corner will clear2) For thrust rating, multiply C by 0.81 and Co by 1.473) Listed values are for machined brass cages and have been determined through historical application and practice4) Rating for one million revolutions or 500 hours at 331⁄3 RPM5) Based on 1800 RPM for 7220DU through 7224DU

7200DU series 29° angular contact ball bearings

MRC BORE OUTSIDE WIDTH FILLET RADIUS 1) BASIC RADIAL LOAD RATING 2) BALLS PER ROW

BEARING d DIAMETER B ra rb DYNAMIC 4) STATIC NUMBER DIAMETERNUMBER mm D mm mm mm C Co mm

in mm in in in N N ininlbf lbf

20 47 28 1.0 .60 20800 14600 12 7.1447204DU .7874 1.8504 1.1024 .04 .024 4680 3280 .281325 52 30 1.0 .60 25100 19000 12 7.9387205DU .9843 2.0472 1.1811 .04 .024 5640 4270 .312530 62 32 1.0 .60 27600 23600 14 7.9387206DU 1.1811 2.4409 1.2598 .04 .024 6200 5310 .312535 72 34 1.0 .60 37700 34000 14 9.5257207DU 1.3780 2.8346 1.3386 .04 .024 8480 7640 .375040 80 36 1.0 .60 49400 45500 14 11.1137208DU 1.5748 3.1496 1.4173 .04 .024 11100 10200 .437545 85 38 1.0 .60 49400 46500 14 11.1137209DU 1.7717 3.3465 1.4961 .04 .024 11100 10500 .437550 90 40 1.0 .60 54000 54000 16 11.1137210DU 1.9685 3.5433 1.5748 .04 .024 12100 12100 .437555 100 42 1.5 1.0 79300 75000 14 14.2887211DU 2.1654 3.9370 1.6535 .06 .04 17800 16900 .562560 110 44 1.5 1.0 85200 88000 16 14.2887212DU 2.3622 4.3307 1.7323 .06 .04 19100 19800 .562565 120 46 1.5 1.0 104000 110000 16 15.8757213DU 2.5591 4.7244 1.8110 .06 .04 23400 24700 .625070 125 48 1.5 1.0 104000 110000 16 15.8757214DU 2.7559 4.9213 1.8898 .06 .04 23400 24700 .625075 130 50 1.5 1.0 130000 140000 17 17.4637215DU 2.9528 5.1181 1.9685 .06 .04 29200 31500 .687580 140 52 2.0 1.0 121000 134000 16 17.4637216DU 3.1496 5.5118 2.0472 .08 .04 27200 30100 .687585 150 56 2.0 1.0 148000 166000 17 19.0507217DU 3.3465 5.9055 2.2047 .08 .04 33300 37300 .750090 160 60 2.0 1.0 190000 236000 22.2257218DU 3.5433 6.2992 2.3622 .08 .04 42700 53100 16 .875095 170 64 2.0 1.0 199000 228000 17 22.2257219DU 3.7402 6.6929 2.5197 .08 .04 44700 51300 .8750100 180 68 2.0 1.0 225000 260000 23.8137220DU 3.9370 7.0866 2.6772 .08 .04 50600 58500 17 .9375105 190 72 2.0 1.0 242000 295000 16 25.4007221DU 4.1339 7.4803 2.8346 .08 .04 54400 66300 1.0000110 200 76 2.0 1.0 265000 310000 26.9887222DU 4.3307 7.8740 2.9921 .08 .04 59600 69700 16 1.0625120 215 80 2.0 1.0 281000 355000 28.5757224DU 4.7244 8.4646 3.1496 .08 .04 63200 79800 16 1.1250

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27

PITCH MIN. REQD.5)

THRUST FOR5)

SPEED RATING 3) RECOMMENDED RECOMMENDED

DIAMETER THRUST LOAD 25000 HRS SHAFT DIAMETER (h5) HOUSING DIAMETER (H6)

mm AT 3600 RPM L10 AT 3600 RPM GREASE OIL MAXIMUM MINIMUM MAXIMUM MINIMUMin N N mm mm mm mm

lbf lbf RPM RPM in in in in

33.7 7 957 12000 15000 20.000 19.990 47.016 47.0001.3256 2 216 .7874 .7870 1.8510 1.850437.7 11 1154 9600 13000 25.000 24.991 52.019 52.000

1.4839 3 260 .9843 .9839 2.0479 2.047246.2 16 1269 8000 10000 30.000 29.990 62.019 62.000

1.8201 4 285 1.1811 1.1807 2.4416 2.440953.8 31 1733 7400 9600 35.000 34.991 72.019 72.000

2.1168 7 390 1.3780 1.3776 2.8353 2.834660.3 54 2271 6200 8000 40.000 39.990 80.019 80.000

2.3740 13 511 1.5748 1.5744 3.1503 3.149665.3 60 2271 5800 7600 45.000 44.991 85.022 85.000

2.5719 14 511 1.7717 1.7713 3.3474 3.346570.4 75 2483 5100 6600 50.000 49.990 90.022 90.000

2.7697 17 557 1.9685 1.9681 3.5442 3.543376.5 145 3646 4800 6200 55.000 54.988 100.022 100.000

3.0100 33 819 2.1654 2.1649 3.9379 3.937085.4 190 3917 4300 5600 60.000 59.987 110.022 110.000

3.3632 43 878 2.3622 2.3617 4.3316 4.330793.0 282 4781 3900 5100 65.000 64.988 120.022 120.000

3.6600 64 1076 2.5591 2.5586 4.7253 4.724498.0 301 4781 3700 4800 70.000 69.987 125.025 125.000

3.8578 68 1076 2.7559 2.7554 4.9223 4.9213101.4 434 5976 3400 4500 75.000 74.988 130.025 130.0003.9903 98 1343 2.9528 2.9523 5.1191 5.1181110.6 454 5563 3300 4200 80.000 79.987 140.025 140.0004.3524 102 1251 3.1496 3.1491 5.5128 5.5118118.1 665 6804 3000 3900 85.000 84.986 150.025 150.0004.6491 150 1531 3.3465 3.3459 5.9065 5.9055124.5 1024 8734 90.000 89.985 160.025 160.0004.9012 231 1963 2900 3800 3.5433 3.5427 6.3002 6.2992132.5 1174 9148 2800 3600 95.000 94.986 170.025 170.000

5.2165 264 2055 3.7402 3.7396 6.6939 6.6929140.7 383 5) 13031 5) 100.000 99.985 180.025 180.0005.5394 87 2931 2600 3300 3.9370 3.9364 7.0876 7.0866148.2 460 5) 14016 5) 2400 3100 105.000 104.986 190.029 190.000

5.8361 104 3151 4.1339 4.1333 7.4814 7.4803155.8 578 5) 15348 5) 2300 3000 110.000 109.985 200.029 200.000

6.1329 130 3452 4.3307 4.3301 7.8751 7.8740169.0 748 5) 16275 5) 2200 2800 120.000 119.985 215.029 215.000

6.6524 169 3661 4.7244 4.7238 8.4657 8.4646

Tabulated vaules are for back-to-back (DB) or face-to-face (DF) mounting arrangement

Page 127: Anti Friction Bearings for Pumps

28

MRC Bearing Services 1-800-MRC-7000

1) Fillet radius indicates maximum fillet radius on shaft or in housing which bearing corner will clear2) For thrust rating, multiply C by 0.81 and Co by 1.473) Listed values are for machined brass cages and have been determined through historical application and practice4) Rating for one million revolutions or 500 hours at 331⁄3 RPM5) Based on 1800 RPM for 7318DU through 7332DU

7300DU series 29° angular contact ball bearings

MRC BORE OUTSIDE WIDTH FILLET RADIUS 1) BASIC RADIAL LOAD RATING 2) BALLS PER ROW

BEARING d DIAMETER B ra rb DYNAMIC 4) STATIC NUMBER DIAMETERNUMBER mm D mm mm mm C Co mm

in mm in in in N N ininlbf lbf

20 52 30 1.0 .60 30200 21200 10 9.5257304DU .7874 2.0472 1.1811 .04 .024 6790 4770 .375025 62 34 1.0 .60 34500 27000 12 9.5257305DU .9843 2.4409 1.3386 .04 .024 7760 6070 .375030 72 38 1.0 .60 46200 37500 12 11.1137306DU 1.1811 2.8346 1.4961 .04 .024 10400 8430 .437535 80 42 1.5 1.0 58500 48000 12 12.7007307DU 1.3780 3.1496 1.6535 .06 .04 13200 10800 .500040 90 46 1.5 1.0 71500 61000 12 14.2887308DU 1.5748 3.5433 1.8110 .06 .04 16100 13700 .562545 100 50 1.5 1.0 85200 75000 12 15.8757309DU 1.7717 3.9370 1.9685 .06 .04 19200 16900 .625050 110 54 2.0 1.0 121000 106000 12 19.0507310DU 1.9685 4.3307 2.1260 .08 .04 27200 23800 .750055 120 58 2.0 1.0 140000 125000 12 20.6387311DU 2.1654 4.7244 2.2835 .08 .04 31500 28100 .812560 130 62 2.0 1.0 159000 146000 12 22.2257312DU 2.3622 5.1181 2.4409 .08 .04 35700 32800 .875065 140 66 2.0 1.0 178000 173000 14 22.2257313DU 2.5591 5.5118 2.5984 .08 .04 40000 38900 .875070 150 70 2.0 1.0 182000 170000 12 23.8137314DU 2.7559 5.9055 2.7559 .08 .04 40900 38200 .937575 160 74 2.0 1.0 225000 228000 14 25.4007315DU 2.9528 6.2992 2.9134 .08 .04 50600 51300 1.000080 170 78 2.0 1.0 234000 240000 13 26.9887316DU 3.1496 6.6929 3.0709 .08 .04 52600 54000 1.062585 180 82 2.5 1.0 265000 285000 14 28.5757317DU 3.3465 7.0866 3.2283 .10 .04 59600 64100 1.125090 190 86 2.5 1.0 276000 300000 13 30.1637318DU 3.5433 7.4803 3.3858 .10 .04 62000 67400 1.187595 200 90 2.5 1.0 291000 325000 13 31.7507319DU 3.7402 7.8740 3.5433 .10 .04 65400 73100 1.2500100 215 94 2.5 1.0 312000 365000 13 33.3387320DU 3.9370 8.4646 3.7008 .10 .04 70100 82100 1.3125105 225 98 2.5 1.0 332000 400000 13 34.9257321DU 4.1339 8.8583 3.8583 .10 .04 74600 89900 1.3750110 240 100 2.5 1.0 371000 475000 13 38.1007322DU 4.3307 9.4488 3.9370 .10 .04 83400 107000 1.5000120 260 110 2.5 1.0 423000 560000 13 41.2757324DU 4.7244 10.2362 4.3307 .10 .04 95100 126000 1.6250130 280 116 3.0 1.0 468000 640000 13 44.4507326DU 5.1181 11.0236 4.5669 .12 .04 105000 144000 1.7500140 300 124 3.0 1.0 507000 735000 13 47.6257328DU 5.5118 11.8110 4.8819 .12 .04 114000 165000 1.8750150 320 130 3.0 1.0 559000 865000 14 49.2137330DU 5.9055 12.5984 5.1181 .12 .04 126000 194000 1.9375

160 340 136 3.0 1.0 618000 965000 14 52.3887332DU 6.2992 13.3858 5.3543 .12 .04 139000 217000 2.0625

Page 128: Anti Friction Bearings for Pumps

29

PITCH MIN. REQD.5)

THRUST FOR5)

SPEED RATING 3) RECOMMENDED RECOMMENDED

DIAMETER THRUST LOAD 25000 HRS SHAFT DIAMETER (h5) HOUSING DIAMETER (H6)

mm AT 3600 RPM L10 AT 3600 RPM GREASE OIL MAXIMUM MINIMUM MAXIMUM MINIMUMin N N mm mm mm mm

lbf lbf RPM RPM in in in in

35.7 13 1389 10000 14000 20.000 19.990 52.019 52.0001.4072 3 313 .7874 .7870 2.0479 2.047243.7 21 1586 8800 11000 25.000 24.991 62.019 62.000

1.7212 5 357 .9843 .9839 2.4416 2.440951.3 38 2124 7400 9600 30.000 29.990 72.019 72.000

2.0179 9 479 1.1811 1.1807 2.8353 2.834657.8 63 2690 6800 8800 35.000 34.991 80.019 80.000

2.2751 15 607 1.3780 1.3776 3.1503 3.149665.5 102 3287 5800 7600 40.000 39.990 90.022 90.000

2.5791 23 741 1.5748 1.5744 3.5442 3.543372.9 156 3917 5100 6600 45.000 44.991 100.022 100.000

2.8687 35 883 1.7717 1.7713 3.9379 3.937078.8 281 5563 4600 6000 50.000 49.990 110.022 110.000

3.1025 63 1251 1.9685 1.9681 4.3316 4.330785.4 386 6436 4100 5300 55.000 54.988 120.022 120.000

3.3610 87 1448 2.1654 2.1649 4.7253 4.724495.0 543 7309 3900 5100 60.000 59.987 130.025 130.000

3.7401 122 1642 2.3622 2.3617 5.1191 5.1181103.0 705 8183 3700 4800 65.000 64.988 140.025 140.0004.0557 159 1839 2.5591 2.5586 5.5128 5.5118110.6 798 8367 3300 4200 70.000 69.987 150.025 150.0004.3524 180 1881 2.7559 2.7554 5.9065 5.9055118.1 1207 10343 3100 4000 75.000 74.988 160.025 160.0004.6491 272 2326 2.9528 2.9523 6.3002 6.2992125.6 1430 10757 2900 3800 80.000 79.987 170.025 170.0004.9459 322 2418 3.1496 3.1491 6.6939 6.6929133.2 1940 12182 2800 3600 85.000 84.986 180.025 180.0005.2427 436 2740 3.3465 3.3459 7.0876 7.0866140.7 560 5) 15985 5) 2600 3400 90.000 89.985 190.029 190.0005.5394 126 3591 3.5433 3.5427 7.4814 7.4803148.2 688 5) 16854 5) 2500 3200 95.000 94.986 200.029 200.0005.8361 155 3788 3.7402 3.7396 7.8751 7.8740158.3 855 5) 18070 5) 2400 3100 100.000 99.985 215.029 215.0006.2318 193 4060 3.9370 3.9364 8.4657 8.4646165.8 1029 5) 19228 5) 2300 3000 105.000 104.986 225.029 225.0006.5286 232 4321 4.1339 4.1333 8.8594 8.8583175.9 1405 5) 21487 5) 2200 2800 110.000 109.985 240.029 240.0006.9242 316 4831 4.3307 4.3301 9.4499 9.4488188.9 1914 5) 24499 5) 2000 2600 120.000 119.985 260.032 260.0007.4351 431 5508 4.7244 4.7238 10.2375 10.2362203.8 2580 5) 27105 5) 1800 2400 130.000 129.982 280.032 280.0008.0227 580 6082 5.1181 5.1174 11.0249 11.0236218.7 3406 5) 29363 5) 1800 2200 140.000 139.982 300.032 300.0008.6104 766 6603 5.5118 5.5111 11.8123 11.8110233.6 4367 5) 32375 5) 1600 2100 150.000 149.982 320.036 320.0009.1956 982 7298 5.9055 5.9048 12.5998 12.5984

248.5 5603 5) 35792 5) 1500 2000 160.000 159.982 340.036 340.0009.7833 1260 8051 6.2992 6.2985 13.3872 13.3858

Tabulated vaules are for back-to-back (DB) or face-to-face (DF) mounting arrangement

Page 129: Anti Friction Bearings for Pumps
Page 130: Anti Friction Bearings for Pumps

MRC 7000PDU bearings are especiallyrecommended for pumps, motors and otherdevices that generate heavy axial loads at highspeeds. 7000PDU bearings are not intended torun in pumps that generate only small- or no-thrust loads. See the table on pages 32 and 33for minimum thrust loads. The bearing with anaircraft-style machined bronze cage runs particularly well in applications where thrustloads vary greatly during operation and periodsof ball skidding are unavoidable. Similarly, thisbearing type resists destructive vibration forceswhen cavitation occurs.

Experience has shown that this bearing, with aland-guided, machined bronze cage is veryforgiving when ball skidding occurs. With oillubrication, this cage type runs cooler than most other executions.

• ABEC-1• Land-guided, machined bronze cage• Stocked with GA preload (other preloads

available on a Made-To-Order basis)• Stocked as universally ground half pairs

The MRC 7000PDU series angular contact ballbearing has been traditionally supplied with thefaces ground flush (GA) and used with an h5shaft fit. When heavier interference fits areemployed, a bearing with axial clearance (CB)may be needed. Call 1-800-MRC-7000 forassistance in selecting special axial clearances.

31

7200PDU and 7300PDU series 40° angular contact ball bearings with land-guided, machined bronze cage

Page 131: Anti Friction Bearings for Pumps

32

MRC Bearing Services 1-800-MRC-7000

1) Fillet radius indicates maximum fillet radius on shaft or in housing which bearing corner will clear2) For thrust rating, multiply C by 1.08 and Co by 1.933) Listed values are for machined bronze cage and have been determined through historical application and practice4) Rating for one million revolutions or 500 hours at 331⁄3 RPM5) Based on 1800 RPM for 7219PDU through 7232PDU and 7317PDU through 7328PDU

7200PDU and 7300PDU series 40° angular contact ball bearings with land-guided, machined bronze cage

MRC BORE OUTSIDE WIDTH FILLET RADIUS 1) BASIC RADIAL LOAD RATING 2) BALLS PER ROW

BEARING d DIAMETER B ra rb DYNAMIC 4) STATIC NUMBER DIAMETERNUMBER mm D mm mm mm C Co mm

in mm in in in N N inin lbf lbf

80 140 52 2.0 1.0 135000 140000 15 19.8447216PDU 3.1496 5.5118 2.0472 .08 .04 30300 31500 .781390 160 60 2.0 1.0 178000 190000 23.0197218PDU 3.5433 6.2992 2.3622 .08 .04 40000 42700 15 .906395 170 64 2.0 1.0 199000 220000 15 24.6067219PDU 3.7402 6.6929 2.5197 .08 .04 44700 49400 .9688100 180 68 2.0 1.0 212000 250000 25.4007220PDU 3.9370 7.0866 2.6772 .08 .04 47700 56200 15 1.0000110 200 76 2.0 1.0 251000 310000 28.5757222PDU 4.3307 7.8740 2.9921 .08 .04 56400 69700 15 1.1250120 215 80 2.0 1.0 270000 325000 30.1637224PDU 4.7244 8.4646 3.1496 .08 .04 60700 73100 15 1.1875130 230 80 2.5 1.0 302000 390000 16 31.7507226PDU 5.1181 9.0551 3.1496 .10 .04 67900 87700 1.2500140 250 84 2.5 1.0 319000 430000 16 33.3387228PDU 5.5118 9.8425 3.3071 .10 .04 71700 96700 1.3125150 270 90 2.5 1.0 351000 520000 17 34.9257230PDU 5.9055 10.6299 3.5433 .10 .04 78900 117000 1.3750160 290 96 2.5 1.0 390000 560000 16 38.1007232PDU 6.2992 11.4173 3.7795 .10 .04 87700 126000 1.5000

30 72 38 1.0 .60 52700 39000 10 13.4947306PDU 1.1811 2.8346 1.4961 .04 .024 11800 8770 .531335 80 42 1.5 1.0 63700 49000 15.0817307PDU 1.3780 3.1496 1.6535 .06 .04 14300 11000 10 .593840 90 46 1.5 1.0 76100 61000 16.6697308PDU 1.5748 3.5433 1.8110 .06 .04 17100 13700 10 .656345 100 50 1.5 1.0 97500 80000 18.2567309PDU 1.7717 3.9370 1.9685 .06 .04 21900 18000 11 .718850 110 54 2.0 1.0 112000 104000 19.8447310PDU 1.9685 4.3307 2.1260 .08 .04 25200 23400 11 .781355 120 58 2.0 1.0 130000 112000 21.4317311PDU 2.1654 4.7244 2.2835 .08 .04 29200 25200 11 .843860 130 62 2.0 1.0 148000 129000 23.0197312PDU 2.3622 5.1181 2.4409 .08 .04 33300 29000 11 .906365 140 66 2.0 1.0 165000 160000 24.6067313PDU 2.5591 5.5118 2.5984 .08 .04 37100 36000 11 .968870 150 70 2.0 1.0 190000 186000 26.9887314PDU 2.7559 5.9055 2.7559 .08 .04 42700 41800 11 1.062575 160 74 2.0 1.0 208000 200000 28.5757315PDU 2.9528 6.2992 2.9134 .08 .04 46800 45000 11 1.125080 170 78 2.0 1.0 225000 220000 30.1637316PDU 3.1496 6.6929 3.0709 .08 .04 50600 49500 11 1.187585 180 82 2.5 1.0 238000 245000 31.7507317PDU 3.3465 7.0866 3.2283 .10 .04 53500 55100 11 1.250090 190 86 2.5 1.0 255000 270000 33.3387318PDU 3.5433 7.4803 3.3858 .10 .04 57300 60700 11 1.312595 200 90 2.5 1.0 276000 300000 34.9257319PDU 3.7402 7.8740 3.5433 .10 .04 62000 67400 11 1.3750100 215 94 2.5 1.0 307000 380000 36.5137320PDU 3.9370 8.4646 3.7008 .10 .04 69000 85400 12 1.4375105 225 98 2.5 1.0 325000 390000 38.1007321PDU 4.1339 8.8583 3.8583 .10 .04 73100 87700 12 1.5000110 240 100 2.5 1.0 345000 455000 39.6887322PDU 4.3307 9.4488 3.9370 .10 .04 77600 102000 12 1.5625120 260 110 2.5 1.0 390000 530000 44.4507324PDU 4.7244 10.2362 4.3307 .10 .04 87700 119000 12 1.7500130 280 116 3.0 1.0 449000 610000 47.6257326PDU 5.1181 11.0236 4.5669 .12 .04 101000 137000 12 1.8750140 300 124 3.0 1.0 488000 695000 50.8007328PDU 5.5118 11.8110 4.8819 .12 .04 110000 156000 12 2.0000

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33

PITCH MIN. REQD.5)

THRUST FOR5)

SPEED RATING 3) RECOMMENDED RECOMMENDED

DIAMETER THRUST LOAD 25000 HRS SHAFT DIAMETER (h5) HOUSING DIAMETER (H6)

mm AT 3600 RPM L10 AT 3600 RPM GREASE OIL MAXIMUM MINIMUM MAXIMUM MINIMUMin N N mm mm mm mm

lbf lbf RPM RPM in in in in

110.0 1090 8275 3000 4000 80.000 79.987 140.025 140.0004.3307 245 1858 3.1496 3.1491 5.5128 5.5118125.0 1925 10910 90.000 89.985 160.025 160.0004.9213 433 2452 2600 3600 3.5433 3.5427 6.3002 6.2992132.5 622 5) 15367 5)

2400 3400 95.000 94.986 170.025 170.0005.2165 140 3452 3.7402 3.7396 6.6939 6.6929140.0 727 5) 16371 5) 100.000 99.985 180.025 180.000

5.5118 164 3684 2200 3200 3.9370 3.9364 7.0876 7.0866155.5 1146 5) 19383 5) 110.000 109.985 200.029 200.0006.1204 258 4356 1900 2800 4.3307 4.3301 7.8751 7.8740167.5 1458 5) 20850 5) 120.000 119.985 215.029 215.0006.5945 328 4688 1700 2400 4.7244 4.7238 8.4657 8.4646180.0 1956 5) 23321 5)

1700 2400 130.000 129.982 230.029 230.0007.0866 440 5244 5.1181 5.1174 9.0562 9.0551195.0 2468 5) 24634 5)

1600 2200 140.000 139.982 250.029 250.0007.6772 555 5537 5.5118 5.5111 9.8436 9.8425210.0 3263 5) 27105 5)

1500 2000 150.000 149.982 270.032 270.0008.2677 734 6093 5.9055 5.9048 10.6312 10.6299225.0 4258 5) 30116 5)

1300 1700 160.000 159.982 290.032 290.0008.8583 958 6773 6.2992 6.2985 11.4186 11.4173

51.0 96 3230 6700 9000 30.000 29.990 72.019 72.0002.0079 22 724 1.1811 1.1807 2.8353 2.834657.5 152 3905 35.000 34.991 80.019 80.000

2.2638 34 877 6000 8000 1.3780 1.3776 3.1503 3.149665.0 233 4665 40.000 39.990 90.022 90.000

2.5591 53 1049 5300 7000 1.5748 1.5744 3.5442 3.543372.5 377 5976 45.000 44.991 100.022 100.000

2.8543 85 1343 4800 6300 1.7717 1.7713 3.9379 3.937080.0 537 6865 50.000 49.990 110.022 110.000

3.1496 121 1545 4300 5600 1.9685 1.9681 4.3316 4.330787.5 743 7968 55.000 54.988 120.022 120.000

3.4449 167 1790 3800 5000 2.1654 2.1649 4.7253 4.724495.0 1002 9071 60.000 59.987 130.025 130.000

3.7402 226 2041 3600 4800 2.3622 2.3617 5.1191 5.1181102.5 1324 10113 65.000 64.988 140.025 140.0004.0355 298 2274 3200 4300 2.5591 2.5586 5.5128 5.5118110.0 1863 11645 70.000 69.987 150.025 150.0004.3307 419 2618 3000 4000 2.7559 2.7554 5.9065 5.9055117.5 2368 12749 75.000 74.988 160.025 160.0004.6260 533 2869 2800 3800 2.9528 2.9523 6.3002 6.2992125.0 2970 13791 80.000 79.987 170.025 170.0004.9213 668 3102 2600 3600 3.1496 3.1491 6.6939 6.6929132.5 920 5) 18379 5) 85.000 84.986 180.025 180.000

5.2166 207 4132 2400 3400 3.3465 3.3459 7.0876 7.0866140.0 1127 5) 19692 5) 90.000 89.985 190.029 190.0005.5118 254 4425 2200 3200 3.5433 3.5427 7.4814 7.4803147.5 1368 5) 21313 5) 95.000 94.986 200.029 200.0005.8071 308 4788 2000 3000 3.7402 3.7396 7.8751 7.8740157.5 1832 5) 23707 5) 100.000 99.985 215.029 215.0006.2008 412 5329 1900 2800 3.9370 3.9364 8.4657 8.4646165.0 2182 5) 25097 5) 105.000 104.986 225.029 225.0006.4961 491 5645 1800 2600 4.1339 4.1333 8.8594 8.8583175.0 2629 5) 26641 5) 110.000 109.985 240.029 240.0006.8898 591 5993 1700 2400 4.3307 4.3301 9.4499 9.4488190.0 3976 5) 30116 5) 120.000 119.985 260.032 260.0007.4803 894 6773 1600 2200 4.7244 4.7238 10.2375 10.2362205.0 5286 5) 34672 5) 130.000 129.982 280.032 280.0008.0709 1189 7800 1500 2000 5.1181 5.1174 11.0249 11.0236220.0 6896 5) 37684 5) 140.000 139.982 300.032 300.0008.6614 1551 8495 1400 1900 5.5118 5.5111 11.8123 11.8110

Tabulated vaules are for back-to-back (DB) or face-to-face (DF) mounting arrangement

Page 133: Anti Friction Bearings for Pumps
Page 134: Anti Friction Bearings for Pumps

35

Single-row 40º angular contact ball bearings are the most popular pump thrust bearings inservice today. MRC 7000PJDE series bearingsare compliant with API 610 requirements.

Proven Track RecordLong service life and reliable performance haveearned MRC angular contact ball bearings anexcellent reputation in the pump industry.The standard product features which havecontributed to this exceptional performanceinclude: ABEC-3 precision tolerances,a 40° contact angle, controlled internal CBaxial clearance, one-piece ball-guided machinedbrass cages and universal grinding. Thesefeatures have allowed MRC single-rowduplexed bearings to accommodate combinedaxial and radial loads, high speeds and poorlubrication conditions.

Technical Improvements*Improved materialsMRC 7000PJDE series single-row angular contactball bearings are manufactured from an extremelyhigh quality bearing steel with a very low oxygencontent and a minimum number of impurities. Therings are manufactured from forged blanks, andboth rings are heat treated to provide dimensionalstability up to 300° F (150° C). These advantagesallow the bearings to maintain built-in clearancesover their entire service life.

Improved internal geometryTwenty-first century computer-aided design andmanufacturing programs have permitted subtleimprovements in the bearings. These small, buteffective, modifications to the bearing’s internalgeometry lead to measurable improvements inboth performance and service life. One benefit ofthis fine tuning is that MRC single-row 40º ballbearings are less sensitive to axial overloading.

Improved precision tolerancesMRC 7000PJDE series single-row angular contactball bearings are manufactured to ABEC-5 (P5)running accuracy and ABEC-3 (P6) dimensional

accuracy. This feature provides smoother andtruer operation with less heat generation, lowervibration, and more precise shaft guidance.

Improved ball qualityThe balls used in MRC 7000PJDE series single-row angular contact ball bearings are one ISOgrade better than the balls previously utilized.The more precise ball diameter improves runningaccuracy even at high speeds, while reducingnoise and bearing operating temperature.

New cageMRC 7000PJDE series single-row angularcontact ball bearings have an improvedmachined brass cage which has been manufac-tured to closer tolerances. The new cage willallow for superior ball guidance as well as betterlubricant film formation.

*MRC continuously works to improve the performanceand durability of our products. With these technicalimprovements, you will notice the longer service life and higher reliability associated with our single-row 40ºangular contact ball bearings. While a significant numberof the bearings incorporate the technical improvementsdescribed above, the implementation of the improve-ments across the entire product range is an ongoingprocess. Please contact MRC before ordering todetermine which sizes have been converted.

7200PJDE and 7300PJDE series 40° angular contact ball bearings with ball-centered cage and CB clearance

Page 135: Anti Friction Bearings for Pumps

36

MRC Bearing Services 1-800-MRC-7000

1) Fillet radius indicates maximum fillet radius on shaft or in housing which bearing corner will clear2) For thrust rating, multiply C by 1.08 and Co by 1.933) Listed values are for machined brass cage and have been determined through historical application and practice4) Rating for one million revolutions or 500 hours at 331⁄3 RPM5) Based on 1800 RPM for 7218PJDE through 7224PJDE

7200PJDE series 40° angular contact ball bearings with ball-centered cage and CB clearance

MRC BORE OUTSIDE WIDTH FILLET RADIUS 1) BASIC RADIAL LOAD RATING 2) BALLS PER ROW

BEARING d DIAMETER B ra r b DYNAMIC 4) STATIC NUMBER DIAMETERNUMBER mm D mm mm mm C Co mm

in mm in in in N N inin lbf lbf

25 52 30 1.0 .60 24200 18600 13 7.9387205PJDE .9843 2.0472 1.1811 .04 .024 5400 4150 .312530 62 32 1.0 .60 36400 28500 12 10.3197206PJDE 1.1811 2.4409 1.2598 .04 .024 8190 6400 .406335 72 34 1.0 .60 47500 38000 12 11.9067207PJDE 1.3780 2.8346 1.3386 .04 .024 10800 8650 .468840 80 36 1.0 .60 51300 39000 13 12.7007208PJDE 1.5748 3.1496 1.4173 .04 .024 11500 8900 .500045 85 38 1.0 .60 55900 48000 14 12.7007209PJDE 1.7717 3.3465 1.4961 .04 .024 12500 10800 .500050 90 40 1.0 .60 60500 57000 15 12.7007210PJDE 1.9685 3.5433 1.5748 .04 .024 13500 12700 .500055 100 42 1.5 1.0 76100 72000 15 14.2887211PJDE 2.1654 3.9370 1.6535 .06 .04 16800 16300 .562560 110 44 1.5 1.0 93600 91500 15 16.1007212PJDE 2.3622 4.3307 1.7323 .06 .04 21200 20400 .633965 120 46 1.5 1.0 108000 108000 15 17.4637213PJDE 2.5591 4.7244 1.8110 .06 .04 24200 24000 .687570 125 48 1.5 1.0 111000 112000 15 17.7007214PJDE 2.7559 4.9213 1.8898 .06 .04 24700 25000 .696975 130 50 1.5 1.0 114000 120000 16 17.7007215PJDE 2.9528 5.1181 1.9685 .06 .04 25500 27000 .696980 140 52 2.0 1.0 130000 140000 16 19.0507216PJDE 3.1496 5.5118 2.0472 .08 .04 29100 31500 .750085 150 56 2.0 1.0 156000 166000 16 21.0007217PJDE 3.3465 5.9055 2.2047 .08 .04 35100 36500 .826890 160 60 2.0 1.0 178000 193000 22.5007218PJDE 3.5433 6.2992 2.3622 .08 .04 40300 43000 16 .885895 170 64 2.0 1.0 199000 216000 16 24.0007219PJDE 3.7402 6.6929 2.5197 .08 .04 44200 48000 .9449100 180 68 2.0 1.0 221000 245000 25.4007220PJDE 3.9370 7.0866 2.6772 .08 .04 48800 55000 16 1.0000110 200 76 2.0 1.0 251000 290000 28.5757222PJDE 4.3307 7.8740 2.9921 .08 .04 55900 65500 15 1.1250120 215 80 2.0 1.0 270000 325000 30.1637224PJDE 4.7244 8.4646 3.1496 .08 .04 60500 73500 15 1.1875

Page 136: Anti Friction Bearings for Pumps

37

Hybrid Bearings

MRC single-row 40º angular contact ball bearings can also be manufactured as hybrid bearings. Thesebearings combine SAE 52100 steel rings with silicon nitride (ceramic) rolling elements. They are typicallyutilized in applications where there is ineffective lubrication, excessive contamination, or stray electricalcurrents. Even under poor lubrication conditions, metal-to-metal contact between the raceways and balls iseliminated due to the use of the ceramic material. Hybrid bearings can achieve a service life that is three to30 times longer than the standard all-steel bearing under these adverse conditions. For more information,please contact MRC Bearing Services at 1-800-MRC-7000 and ask for our applications engineeringdepartment.

PITCH MIN. REQD. 5)

THRUST FOR5)

SPEED RATING 3) RECOMMENDED RECOMMENDED

DIAMETER THRUST LOAD 25000 HRS SHAFT DIAMETER (k5) HOUSING DIAMETER (H6)

mm AT 3600 RPM L10 AT 3600 RPM GREASE OIL MAXIMUM MINIMUM MAXIMUM MINIMUMin N N mm mm mm mm

lbf lbf RPM RPM in in in in

38.5 21 1484 8000 11000 25.011 25.002 52.019 52.0001.5157 5 331 .9847 .9844 2.0479 2.047246.0 49 2231 7000 9500 30.011 30.002 62.019 62.000

1.8110 11 502 1.1815 1.1812 2.4416 2.440953.5 88 2912 6000 8000 35.013 35.002 72.019 72.000

2.1063 20 662 1.3785 1.3781 2.8353 2.834660.4 132 3145 5600 7500 40.013 40.002 80.019 80.000

2.3780 30 705 1.5753 1.5749 3.1503 3.149665.0 155 3427 5300 7000 45.013 45.002 85.022 85.000

2.5591 35 767 1.7722 1.7718 3.3474 3.346570.0 182 3709 4800 6300 50.013 50.002 90.022 90.000

2.7559 41 828 1.9690 1.9686 3.5442 3.543377.5 286 4665 4300 5600 55.015 55.002 100.022 100.000

3.0512 65 1030 2.1660 2.1655 3.9379 3.937085.0 446 5737 3800 5000 60.015 60.002 110.022 110.000

3.3465 101 1300 2.3628 2.3623 4.3316 4.330792.5 619 6620 3400 4500 65.015 65.002 120.022 120.000

3.6417 140 1484 2.5597 2.5592 4.7253 4.724497.5 685 6804 3200 4300 70.015 70.002 125.025 125.000

3.8386 154 1514 2.7565 2.7560 4.9223 4.9213102.5 775 6987 3200 4300 75.015 75.002 130.025 130.000

4.0354 175 1563 2.9534 2.9529 5.1191 5.1181110.0 1037 7968 2800 3800 80.015 80.002 140.025 140.000

4.3307 233 1784 3.1502 3.1497 5.5128 5.5118117.5 1474 9562 2600 3600 85.018 85.003 150.025 150.000

4.6260 332 2152 3.3472 3.3466 5.9065 5.9055125.0 482 5) 13746 5) 90.018 90.003 160.025 160.0004.9213 109 3112 2400 3400 3.5440 3.5434 6.3002 6.2992132.5 619 5) 15367 5)

2200 3200 95.018 95.003 170.025 170.0005.2165 140 3414 3.7409 3.7403 6.6939 6.6929140.0 775 5) 17066 5) 100.018 100.003 180.025 180.0005.5118 175 3769 2000 3000 3.9377 3.9371 7.0876 7.0866155.0 1141 5) 19383 5) 110.018 110.003 200.029 200.0006.1024 257 4317 1900 2800 4.3314 4.3308 7.8751 7.8740167.8 1461 5) 20850 5) 120.018 120.003 215.029 215.0006.6043 329 4672 1700 2400 4.7251 4.7245 8.4657 8.4646

Tabulated vaules are for back-to-back (DB) or face-to-face (DF) mounting arrangement

Page 137: Anti Friction Bearings for Pumps

38

MRC Bearing Services 1-800-MRC-7000

1) Fillet radius indicates maximum fillet radius on shaft or in housing which bearing corner will clear2) For thrust rating, multiply C by 1.08 and Co by 1.933) Listed values are for machined brass cage and have been determined through historical application and practice4) Rating for one million revolutions or 500 hours at 331⁄3 RPM5) Based on 1800 RPM for 7316PJDE through 7328PJDE

7300PJDE series 40° angular contact ball bearings with ball-centered cage and CB clearance

MRC BORE OUTSIDE WIDTH FILLET RADIUS 1) BASIC RADIAL LOAD RATING 2) BALLS PER ROW

BEARING d DIAMETER B ra r b DYNAMIC 4) STATIC NUMBER DIAMETERNUMBER mm D mm mm mm C Co mm

in mm in in in N N inin lbf lbf

20 52 30 1.0 .60 30700 20800 9 10.0007304PJDE .7874 2.0472 1.1811 .04 .024 6890 4650 .393725 62 34 1.0 .60 39700 28000 10 11.5007305PJDE .9843 2.4409 1.3386 .04 .024 8920 6300 .452830 72 38 1.0 .60 52700 39000 10 13.4947306PJDE 1.1811 2.8346 1.4961 .04 .024 11900 8800 .531335 80 42 1.5 1.0 62400 49000 14.2887307PJDE 1.3780 3.1496 1.6535 .06 .04 14000 11000 11 .562540 90 46 1.5 1.0 76100 61000 15.8757308PJDE 1.5748 3.5433 1.8110 .06 .04 16800 13400 11 .625045 100 50 1.5 1.0 92300 75000 17.7007309PJDE 1.7717 3.9370 1.9685 .06 .04 20800 17000 11 .696950 110 54 2.0 1.0 112000 95000 19.8447310PJDE 1.9685 4.3307 2.1260 .08 .04 25100 21200 11 .781355 120 58 2.0 1.0 130000 110000 21.4317311PJDE 2.1654 4.7244 2.2835 .08 .04 29100 24500 11 .843860 130 62 2.0 1.0 156000 140000 23.0197312PJDE 2.3622 5.1181 2.4409 .08 .04 35100 31500 12 .906365 140 66 2.0 1.0 174000 160000 24.6067313PJDE 2.5591 5.5118 2.5984 .08 .04 39700 35500 12 .968870 150 70 2.0 1.0 195000 180000 26.1947314PJDE 2.7559 5.9055 2.7559 .08 .04 43600 40000 12 1.031375 160 74 2.0 1.0 203000 196000 26.9887315PJDE 2.9528 6.2992 2.9134 .08 .04 44900 44000 12 1.062580 170 78 2.0 1.0 221000 220000 28.5757316PJDE 3.1496 6.6929 3.0709 .08 .04 48800 49000 12 1.125085 180 82 2.5 1.0 238000 245000 30.1637317PJDE 3.3465 7.0866 3.2283 .10 .04 52700 55000 12 1.187590 190 86 2.5 1.0 255000 270000 31.7507318PJDE 3.5433 7.4803 3.3858 .10 .04 57200 61000 12 1.250095 200 90 2.5 1.0 270000 300000 33.3387319PJDE 3.7402 7.8740 3.5433 .10 .04 60500 67000 12 1.3125100 215 94 2.5 1.0 325000 380000 37.9807320PJDE 3.9370 8.4646 3.7008 .10 .04 72800 86500 12 1.4953105 225 98 2.5 1.0 325000 390000 37.9807321PJDE 4.1339 8.8583 3.8583 .10 .04 72800 88000 12 1.4953110 240 100 2.5 1.0 364000 450000 41.2757322PJDE 4.3307 9.4488 3.9370 .10 .04 81900 100000 12 1.6250120 260 110 2.5 1.0 390000 500000 41.2757324PJDE 4.7244 10.2362 4.3307 .10 .04 87100 112000 13 1.6250130 280 116 3.0 1.0 403000 540000 44.4507326PJDE 5.1181 11.0236 4.5669 .12 .04 90400 120000 12 1.7500140 300 124 3.0 1.0 449000 620000 47.6257328PJDE 5.5118 11.8110 4.8819 .12 .04 101000 137000 12 1.8750

Page 138: Anti Friction Bearings for Pumps

39

Hybrid Bearings

MRC single-row 40º angular contact ball bearings can also be manufactured as hybrid bearings. Thesebearings combine SAE 52100 steel rings with silicon nitride (ceramic) rolling elements. They are typicallyutilized in applications where there is ineffective lubrication, excessive contamination, or stray electricalcurrents. Even under poor lubrication conditions, metal-to-metal contact between the raceways and balls iseliminated due to the use of the ceramic material. Hybrid bearings can achieve a service life that is three to30 times longer than the standard all-steel bearing under these adverse conditions. For more information,please contact MRC Bearing Services at 1-800-MRC-7000 and ask for our applications engineeringdepartment.

PITCH MIN. REQD. 5)

THRUST FOR5)

SPEED RATING 3) RECOMMENDED RECOMMENDED

DIAMETER THRUST LOAD 25000 HRS SHAFT DIAMETER (k5) HOUSING DIAMETER (H6)

mm AT 3600 RPM L10 AT 3600 RPM GREASE OIL MAXIMUM MINIMUM MAXIMUM MINIMUMin N N mm mm mm mm

lbf lbf RPM RPM in in in in

36.4 25 1882 9000 13000 20.011 20.002 52.019 52.0001.4331 6 423 .7878 .7875 2.0479 2.047243.5 51 2434 7500 10000 25.011 25.002 62.019 62.000

1.7126 12 547 .9847 .9844 2.4416 2.440951.0 96 3230 6300 8500 30.011 30.002 72.019 72.000

2.0079 22 730 1.1815 1.1812 2.8353 2.834657.5 144 3825 35.013 35.002 80.019 80.000

2.2638 33 859 5600 7500 1.3785 1.3781 3.1503 3.149665.0 225 4665 40.013 40.002 90.022 90.000

2.5591 51 1030 5000 6700 1.5753 1.5749 3.5442 3.543372.5 347 5658 45.013 45.002 100.022 100.000

2.8543 78 1275 4500 6000 1.7722 1.7718 3.9379 3.937080.5 542 6865 50.013 50.002 110.022 110.000

3.1693 122 1539 4000 5300 1.9690 1.9686 4.3316 4.330787.6 744 7968 55.015 55.002 120.022 120.000

3.4488 168 1784 3600 4800 2.1660 2.1655 4.7253 4.724495.1 1095 9562 60.015 60.002 130.025 130.000

3.7441 247 2152 3400 4500 2.3628 2.3623 5.1191 5.1181102.5 1445 10665 65.015 65.002 140.025 140.000

4.0354 325 2434 3200 4300 2.5597 2.5592 5.5128 5.5118110.0 1875 11952 70.015 70.002 150.025 150.000

4.3307 422 2673 2800 3800 2.7565 2.7560 5.9065 5.9055117.5 2213 12442 75.015 75.002 160.025 160.000

4.6260 498 2752 2600 3600 2.9534 2.9529 6.3002 6.2992125.0 700 5) 17066 5) 80.015 80.002 170.025 170.000

4.9213 158 3769 2400 3400 3.1502 3.1497 6.6939 6.6929132.5 873 5) 18379 5) 85.018 85.003 180.025 180.0005.2165 197 4070 2200 3200 3.3472 3.3466 7.0876 7.0866140.0 1077 5) 19692 5) 90.018 90.003 190.029 190.0005.5118 243 4417 2000 3000 3.5440 3.5434 7.4814 7.4803147.5 1315 5) 20850 5) 95.018 95.003 200.029 200.0005.8071 296 4672 1900 2800 3.7409 3.7403 7.8751 7.8740157.6 2040 5) 25097 5) 100.018 100.003 215.029 215.0006.2047 459 5622 1800 2600 3.9377 3.9371 8.4657 8.4646165.0 2164 5) 25097 5) 105.018 105.003 225.029 225.0006.4961 487 5622 1700 2400 4.1346 4.1340 8.8594 8.8583175.3 2932 5) 28109 5) 110.018 110.003 240.029 240.0006.9031 659 6325 1700 2400 4.3314 4.3308 9.4499 9.4488190.3 3525 5) 30116 5) 120.018 120.003 260.032 260.0007.4937 793 6726 1600 2200 4.7251 4.7245 10.2375 10.2362205.0 4378 5) 31120 5) 130.021 130.003 280.032 280.0008.0709 985 6981 1500 2000 5.1189 5.1182 11.0249 11.0236220.0 5781 5) 34672 5) 140.021 140.003 300.032 300.0008.6614 1300 7800 1400 1900 5.5126 5.5119 11.8123 11.8110

Tabulated vaules are for back-to-back (DB) or face-to-face (DF) mounting arrangement

Page 139: Anti Friction Bearings for Pumps
Page 140: Anti Friction Bearings for Pumps

Single-row 40º angular contact ball bearings are the most popular pump thrust bearings inservice today. MRC 7000PJDU series bearingsare compliant with API 610 requirements.

Proven Track RecordLong service life and reliable performance haveearned MRC angular contact ball bearings anexcellent reputation in the pump industry.The standard product features which havecontributed to this exceptional performanceinclude: ABEC-3 precision tolerances,a 40° contact angle, controlled internal GApreload, one-piece ball-guided pressed brasscages and universal grinding. These featureshave allowed MRC single-row duplexed bearingsto accommodate combined axial and radialloads, high speeds and poor lubricationconditions.

Technical Improvements*Improved materialsMRC 7000PJDU series single-row angularcontact ball bearings are manufactured from an extremely high quality bearing steel with avery low oxygen content and a minimum numberof impurities. The rings are manufactured fromforged blanks, and both rings are heat treated to provide dimensional stability up to 300° F(150° C). These advantages allow the bearings to maintain built-in preloads over their entireservice life.

Improved internal geometryTwenty-first century computer-aided design andmanufacturing programs have permitted subtleimprovements in the bearings. These small buteffective modifications to the bearing’s internalgeometry lead to measurable improvements inboth performance and service life. One benefitof this fine tuning is that MRC single-row 40º ballbearings are less sensitive to axial overloading.

Improved precision tolerancesMRC 7000PJDU series single-row angularcontact ball bearings are manufactured toABEC-5 (P5) running accuracy and ABEC-3 (P6)

dimensional accuracy. This feature providessmoother and truer operation with less heatgeneration, lower vibration, and more preciseshaft guidance.

Improved ball qualityThe balls used in MRC 7000PJDU series single-row angular contact ball bearings are one ISOgrade better than the balls previously utilized.The more precise ball diameter improves runningaccuracy even at high speeds, while reducingnoise and bearing operating temperature.

New cageMRC 7000PJDU series single-row angularcontact ball bearings have an improved pressedbrass cage which has been manufactured tocloser tolerances. The new cage will allow forsuperior ball guidance as well as better lubricantfilm formation.

*MRC continuously works to improve the performanceand durability of our products. With these technicalimprovements, you will notice the longer service life and higher reliability associated with our single-row 40ºangular contact ball bearings. While a significant numberof the bearings incorporate the technical improvementsdescribed above, the implementation of the improve-ments across the entire product range is an ongoingprocess. Please contact MRC before ordering todetermine which sizes have been converted.

7200PJDU and 7300PJDU series 40° angular contact ball bearings with ball-centered cage and GA preload

41

Page 141: Anti Friction Bearings for Pumps

1) Fillet radius indicates maximum fillet radius on shaft or in housing which bearing corner will clear2) For thrust rating, multiply C by 1.08 and Co by 1.933) Listed values are for stamped brass cage and have been determined through historical application and practice4) Rating for one million revolutions or 500 hours at 331⁄3 RPM5) Based on 1800 RPM for 7218PJDU through 7224PJDU

42

MRC Bearing Services 1-800-MRC-7000

7200PJDU series 40° angular contact ball bearings with ball-centered cage and GA preload

MRC BORE OUTSIDE WIDTH FILLET RADIUS 1) BASIC RADIAL LOAD RATING 2) BALLS PER ROW

BEARING d DIAMETER B ra r b DYNAMIC 4) STATIC NUMBER DIAMETERNUMBER mm D mm mm mm C Co mm

in mm in in in N N inin lbf lbf

25 52 30 1.0 .60 25100 20400 14 7.9387205PJDU .9843 2.0472 1.1811 .04 .024 5590 4550 .312530 62 32 1.0 .60 39000 31000 13 10.3197206PJDU 1.1811 2.4409 1.2598 .04 .024 8710 6950 .406335 72 34 1.0 .60 50700 41500 13 11.9067207PJDU 1.3780 2.8346 1.3386 .04 .024 11400 9300 .468840 80 36 1.0 .60 59200 52000 14 12.7007208PJDU 1.5748 3.1496 1.4173 .04 .024 13300 11600 .500045 85 38 1.0 .60 61800 56000 15 12.7007209PJDU 1.7717 3.3465 1.4961 .04 .024 13800 12500 .500050 90 40 1.0 .60 63700 61000 16 12.7007210PJDU 1.9685 3.5433 1.5748 .04 .024 14300 13400 .500055 100 42 1.5 1.0 78000 76500 16 14.2887211PJDU 2.1654 3.9370 1.6535 .06 .04 17200 17300 .562560 110 44 1.5 1.0 93600 91500 15 16.1007212PJDU 2.3622 4.3307 1.7323 .06 .04 21200 20400 .633965 120 46 1.5 1.0 108000 108000 15 17.4637213PJDU 2.5591 4.7244 1.8110 .06 .04 24200 24000 .687570 125 48 1.5 1.0 114000 118000 16 17.7007214PJDU 2.7559 4.9213 1.8898 .06 .04 25500 26500 .6969

75 130 50 1.5 1.0 119000 127000 17 17.7007215PJDU 2.9528 5.1181 1.9685 .06 .04 26500 28500 .696980 140 52 2.0 1.0 135000 146000 17 19.0507216PJDU 3.1496 5.5118 2.0472 .08 .04 30200 32500 .750085 150 56 2.0 1.0 156000 166000 16 21.0007217PJDU 3.3465 5.9055 2.2047 .08 .04 35100 36500 .826890 160 60 2.0 1.0 178000 193000 22.5007218PJDU 3.5433 6.2992 2.3622 .08 .04 40300 43000 16 .885895 170 64 2.0 1.0 199000 216000 16 24.0007219PJDU 3.7402 6.6929 2.5197 .08 .04 44200 48000 .9449100 180 68 2.0 1.0 221000 245000 25.4007220PJDU 3.9370 7.0866 2.6772 .08 .04 48800 55000 16 1.0000110 200 76 2.0 1.0 260000 310000 28.5757222PJDU 4.3307 7.8740 2.9921 .08 .04 58500 69500 16 1.1250120 215 80 2.0 1.0 270000 325000 30.1637224PJDU 4.7244 8.4646 3.1496 .08 .04 60500 73500 15 1.1875

Page 142: Anti Friction Bearings for Pumps

43

PITCH MIN. REQD.5)

THRUST FOR5)

SPEED RATING 3) RECOMMENDED RECOMMENDED

DIAMETER THRUST LOAD 25000 HRS SHAFT DIAMETER (h5) HOUSING DIAMETER (H6)

mm AT 3600 RPM L10 AT 3600 RPM GREASE OIL MAXIMUM MINIMUM MAXIMUM MINIMUMin N N mm mm mm mm

lbf lbf RPM RPM in in in in

38.5 23 1539 8500 12000 25.000 24.991 52.019 52.0001.5157 5 343 .9843 .9839 2.0479 2.047246.0 53 2391 7500 10000 30.000 29.990 62.019 62.000

1.8110 12 534 1.1811 1.1807 2.4416 2.440953.5 95 3108 6300 8500 35.000 34.991 72.019 72.000

2.1063 22 699 1.3780 1.3776 2.8353 2.834660.4 142 3629 5600 7500 40.000 39.990 80.019 80.000

2.3780 32 816 1.5748 1.5744 3.1503 3.149665.0 166 3788 5300 7000 45.000 44.991 85.022 85.000

2.5591 38 846 1.7717 1.7713 3.3474 3.346570.0 194 3905 4800 6300 50.000 49.990 90.022 90.000

2.7559 44 877 1.9685 1.9681 3.5442 3.543377.5 305 4781 4500 6000 55.000 54.988 100.022 100.000

3.0512 69 1055 2.1654 2.1649 3.9379 3.937085.0 446 5737 3800 5000 60.000 59.987 110.022 110.000

3.3465 101 1300 2.3622 2.3617 4.3316 4.330792.5 619 6620 3400 4500 65.000 64.988 120.022 120.000

3.6417 140 1484 2.5591 2.5586 4.7253 4.724497.5 731 6987 3200 4300 70.000 69.987 125.025 125.000

3.8386 165 1563 2.7559 2.7554 4.9223 4.9213

102.5 824 7294 3200 4300 75.000 74.988 130.025 130.0004.0354 186 1625 2.9528 2.9523 5.1191 5.1181110.0 1102 8275 2800 3800 80.000 79.987 140.025 140.0004.3307 248 1851 3.1496 3.1491 5.5128 5.5118117.5 1474 9562 2600 3600 85.000 84.986 150.025 150.0004.6260 332 2152 3.3465 3.3459 5.9065 5.9055125.0 482 5) 13746 5) 90.000 89.985 160.025 160.0004.9213 109 3112 2400 3400 3.5433 3.5427 6.3002 6.2992132.5 619 5) 15367 5) 2200 3200 95.000 94.986 170.025 170.0005.2165 140 3414 3.7402 3.7396 6.6939 6.6929140.0 775 5) 17066 5) 100.000 99.985 180.025 180.0005.5118 175 3769 2200 3200 3.9370 3.9364 7.0876 7.0866155.0 1217 5) 20078 5) 110.000 109.985 200.029 200.0006.1024 274 4518 1900 2800 4.3307 4.3301 7.8751 7.8740167.8 1461 5) 20850 5) 120.000 119.985 215.029 215.0006.6043 329 4672 1700 2400 4.7244 4.7238 8.4657 8.4646

Hybrid Bearings

MRC single-row 40º angular contact ball bearings can also be manufactured as hybrid bearings. Thesebearings combine SAE 52100 steel rings with silicon nitride (ceramic) rolling elements. They are typicallyutilized in applications where there is ineffective lubrication, excessive contamination, or stray electricalcurrents. Even under poor lubrication conditions, metal-to-metal contact between the raceways and balls iseliminated due to the use of the ceramic material. Hybrid bearings can achieve a service life that is three to30 times longer than the standard all-steel bearing under these adverse conditions. For more information,please contact MRC Bearing Services at 1-800-MRC-7000 and ask for our applications engineeringdepartment.

Tabulated vaules are for back-to-back (DB) or face-to-face (DF) mounting arrangement

Page 143: Anti Friction Bearings for Pumps

44

MRC Bearing Services 1-800-MRC-7000

1) Fillet radius indicates maximum fillet radius on shaft or in housing which bearing corner will clear2) For thrust rating, multiply C by 1.08 and Co by 1.933) Listed values are for stamped brass cage and have been determined through historical application and practice4) Rating for one million revolutions or 500 hours at 331⁄3 RPM5) Based on 1800 RPM for 7316PJDU through 7328PJDU

7300PJDU series 40° angular contact ball bearings with ball-centered cage and GA preload

MRC BORE OUTSIDE WIDTH FILLET RADIUS 1) BASIC RADIAL LOAD RATING 2) BALLS PER ROW

BEARING d DIAMETER B ra r b DYNAMIC 4) STATIC NUMBER DIAMETERNUMBER mm D mm mm mm C Co mm

in mm in in in N N inin lbf lbf

20 52 30 1.0 .60 30700 20800 10 10.0007304PJDU .7874 2.0472 1.1811 .04 .024 6890 4650 .393725 62 34 1.0 .60 42300 31000 11 11.5007305PJDU .9843 2.4409 1.3386 .04 .024 9560 6950 .452830 72 38 1.0 .60 55900 42500 11 13.4947306PJDU 1.1811 2.8346 1.4961 .04 .024 12500 9500 .531335 80 42 1.5 1.0 62400 49000 14.2887307PJDU 1.3780 3.1496 1.6535 .06 .04 14000 11000 11 .562540 90 46 1.5 1.0 79300 65500 15.8757308PJDU 1.5748 3.5433 1.8110 .06 .04 17400 14600 12 .625045 100 50 1.5 1.0 97500 81500 17.7007309PJDU 1.7717 3.9370 1.9685 .06 .04 22100 18300 12 .696950 110 54 2.0 1.0 119000 102000 19.8447310PJDU 1.9685 4.3307 2.1260 .08 .04 26500 22800 12 .781355 120 58 2.0 1.0 138000 120000 21.4317311PJDU 2.1654 4.7244 2.2835 .08 .04 30700 27000 12 .843860 130 62 2.0 1.0 156000 140000 23.0197312PJDU 2.3622 5.1181 2.4409 .08 .04 35100 31500 12 .906365 140 66 2.0 1.0 174000 160000 24.6067313PJDU 2.5591 5.5118 2.5984 .08 .04 39700 35500 12 .968870 150 70 2.0 1.0 195000 180000 26.1947314PJDU 2.7559 5.9055 2.7559 .08 .04 43600 40000 12 1.031375 160 74 2.0 1.0 212000 212000 26.9887315PJDU 2.9528 6.2992 2.9134 .08 .04 46800 47500 13 1.062580 170 78 2.0 1.0 229000 236000 28.5757316PJDU 3.1496 6.6929 3.0709 .08 .04 50700 53000 13 1.125085 180 82 2.5 1.0 251000 265000 30.1637317PJDU 3.3465 7.0866 3.2283 .10 .04 55900 60000 13 1.187590 190 86 2.5 1.0 270000 290000 31.7507318PJDU 3.5433 7.4803 3.3858 .10 .04 60500 65500 13 1.250095 200 90 2.5 1.0 286000 325000 33.3387319PJDU 3.7402 7.8740 3.5433 .10 .04 63700 73500 13 1.3125100 215 94 2.5 1.0 325000 380000 37.9807320PJDU 3.9370 8.4646 3.7008 .10 .04 72800 86500 12 1.4953105 225 98 2.5 1.0 345000 415000 37.9807321PJDU 4.1339 8.8583 3.8583 .10 .04 78000 93000 13 1.4953110 240 100 2.5 1.0 364000 450000 41.2757322PJDU 4.3307 9.4488 3.9370 .10 .04 81900 100000 12 1.6250120 260 110 2.5 1.0 390000 500000 41.2757324PJDU 4.7244 10.2362 4.3307 .10 .04 87100 112000 13 1.6250130 280 116 3.0 1.0 403000 540000 44.4507326PJDU 5.1181 11.0236 4.5669 .12 .04 90400 120000 12 1.7500140 300 124 3.0 1.0 449000 620000 47.6257328PJDU 5.5118 11.8110 4.8819 .12 .04 101000 137000 12 1.8750

Page 144: Anti Friction Bearings for Pumps

45

PITCH MIN. REQD.5)

THRUST FOR5)

SPEED RATING 3) RECOMMENDED RECOMMENDED

DIAMETER THRUST LOAD 25000 HRS SHAFT DIAMETER (h5) HOUSING DIAMETER (H6)

mm AT 3600 RPM L10 AT 3600 RPM GREASE OIL MAXIMUM MINIMUM MAXIMUM MINIMUMin N N mm mm mm mm

lbf lbf RPM RPM in in in in

36.4 28 1882 9000 13000 20.000 19.990 52.019 52.0001.4331 7 423 .7874 .7870 2.0479 2.047243.5 56 2593 7500 10000 25.000 24.991 62.019 62.000

1.7126 13 586 .9843 .9839 2.4416 2.440951.0 106 3427 6700 9000 30.000 29.990 72.019 72.000

2.0079 24 767 1.1811 1.1807 2.8353 2.834657.5 144 3825 35.000 34.991 80.019 80.000

2.2638 33 859 6000 8000 1.3780 1.3776 3.1503 3.149665.0 245 4861 40.000 39.990 90.022 90.000

2.5591 56 1067 5300 7000 1.5748 1.5744 3.5442 3.543372.5 379 5976 45.000 44.991 100.022 100.000

2.8543 86 1355 4800 6300 1.7717 1.7713 3.9379 3.937080.5 591 7294 50.000 49.990 110.022 110.000

3.1693 133 1625 4300 5600 1.9685 1.9681 4.3316 4.330787.6 811 8458 55.000 54.988 120.022 120.000

3.4488 183 1882 3800 5000 2.1654 2.1649 4.7253 4.724495.1 1095 9562 60.000 59.987 130.025 130.000

3.7441 247 2152 3400 4500 2.3622 2.3617 5.1191 5.1181102.5 1445 10665 65.000 64.988 140.025 140.0004.0354 325 2434 3200 4300 2.5591 2.5586 5.5128 5.5118110.0 1875 11952 70.000 69.987 150.025 150.0004.3307 422 2673 2800 3800 2.7559 2.7554 5.9065 5.9055117.5 2397 12994 75.000 74.988 160.025 160.0004.6260 539 2869 2600 3600 2.9528 2.9523 6.3002 6.2992125.0 758 5) 17684 5) 80.000 79.987 170.025 170.0004.9213 171 3916 2400 3400 3.1496 3.1491 6.6939 6.6929132.5 946 5) 19383 5) 85.000 84.986 180.025 180.0005.2165 213 4317 2400 3400 3.3465 3.3459 7.0876 7.0866140.0 1167 5) 20850 5) 90.000 89.985 190.029 190.0005.5118 263 4672 2000 3000 3.5433 3.5427 7.4814 7.4803147.5 1425 5) 22085 5) 95.000 94.986 200.029 200.0005.8071 321 4919 2000 3000 3.7402 3.7396 7.8751 7.8740157.6 2040 5) 25097 5) 100.000 99.985 215.029 215.0006.2047 459 5622 1900 2800 3.9370 3.9364 8.4657 8.4646165.0 2344 5) 26641 5) 105.000 104.986 225.029 225.0006.4961 527 6024 1800 2600 4.1339 4.1333 8.8594 8.8583175.3 2932 5) 28109 5) 110.000 109.985 240.029 240.0006.9031 659 6325 1700 2400 4.3307 4.3301 9.4499 9.4488190.3 3525 5) 30116 5) 120.000 119.985 260.032 260.000

7.4937 793 6726 1600 2200 4.7244 4.7238 10.2375 10.2362205.0 4378 5) 31120 5) 130.000 129.982 280.032 280.000

8.0709 985 6981 1500 2000 5.1181 5.1174 11.0249 11.0236220.0 5781 5) 34672 5) 140.000 139.982 300.032 300.000

8.6614 1300 7800 1400 1900 5.5118 5.5111 11.8123 11.8110

Hybrid Bearings

MRC single-row 40º angular contact ball bearings can also be manufactured as hybrid bearings. Thesebearings combine SAE 52100 steel rings with silicon nitride (ceramic) rolling elements. They are typicallyutilized in applications where there is ineffective lubrication, excessive contamination, or stray electricalcurrents. Even under poor lubrication conditions, metal-to-metal contact between the raceways and balls iseliminated due to the use of the ceramic material. Hybrid bearings can achieve a service life that is three to30 times longer than the standard all-steel bearing under these adverse conditions. For more information,please contact MRC Bearing Services at 1-800-MRC-7000 and ask for our applications engineeringdepartment.

Tabulated vaules are for back-to-back (DB) or face-to-face (DF) mounting arrangement

Page 145: Anti Friction Bearings for Pumps
Page 146: Anti Friction Bearings for Pumps

The three PumPac® series are matched sets of40° and 15° angular contact ball bearings withcomputer optimized internal design. The 8000series has one 40° bearing mounted back-to-back with one 15° bearing. The 8000AAB serieshas two tandem mounted 40° bearings matchedback-to-back with one 15° bearing. The 8000BBseries has two 15O bearings mounted back-to-back.

• ABEC-3 tolerances• 40°/15° contact angles• Land-riding, machined brass cage• CB axial clearance• Heat treated for dimensional stability• “V” etched O.D.

The PumPac 8000 series is used in centrifugalpumps, large vertical electric motors, compres-sors, centrifuges, and other applications subjectto thrust loads while operating at relatively highspeeds. The bearings are mounted so that the40° bearing takes the primary thrust (axial) load.

Traditionally, matched sets of 40° angular contactbearings are used to obtain maximum theoreticalfatigue life; but, in most instances, only a fractionof the calculated life is actually achieved. At theheart of these premature failures are phenomenaknown as ball sliding and ball shuttling in theunloaded or inactive bearing. Angular contact ballbearings used in high speed (3600 RPM) pumpsand other applications require a minimum axialload for proper operation. Without axial load,centrifugal and gyroscopic forces in the unloaded

bearing will cause the balls to rotate at an anglecontrary to their true rolling axis; and, as a result,the balls will momentarily lose contact with theraceway. In addition, a microscopic wear orlapping process occurs, giving the appearance ofa burnished or polished raceway. While the oilfilm thickness separating the ball and raceway isreduced, friction and heat are generated, oilviscosity is lowered, and wear is accelerated.This thermally unstable condition dramaticallyreduces bearing service life.

The main benefit of the PumPac bearing systemis that the 15° bearing is designed with consid-erably less internal clearance than the 40°bearing, making it less susceptible to the centrifugal and gyroscopic forces which result in ball sliding and shuttling. This bearing alsoprovides additional radial stiffness, helping to maintain the integrity of the shaft andmechanical seals. The 40° loaded bearingprovides sufficient axial rigidity under theimposed thrust load.

47

8000 series PumPac®

40O/15O angular contact ball bearings

Page 147: Anti Friction Bearings for Pumps

48

MRC Bearing Services 1-800-MRC-7000

1) Fillet radius indicates maximum fillet radius on shaft or in housing which bearing corner will clear2) For thrust rating of bearing (A), multiply C by 1.75 and Co by 3.85. For thrust rating of bearing (B), multiply C by 0.83 and Co by 2.003) Values have been determined through historical application and practice4) Rating for one million revolutions or 500 hours at 331⁄3 RPM claculated according to actual bearing raceway geometry5) Based on 1800 RPM for 8224, 8238, and 8322 through 8336

1)

8000 series PumPac® 40º/15º angular contact ball bearings

40° (A) Bearing

MRC BORE OUTSIDE WIDTHFILLET RADIUS BASIC RADIAL LOAD RATING 2) BALLS PER ROW PITCH MIN. REQD.

5)THRUST FOR

5)

BEARING d DIAMETER B ra r b DYNAMIC 4) STATIC NUMBER DIAMETER DIAMETER THRUST AT 25000 HRSNUMBER mm D mm mm mm C Co mm mm 3600 RPM L10 @ 3600 RPM

in mm in in in N N in in N Nin lbf lbf lbf lbf

90 160 60 2.0 1.0 133000 143000 23.019 125.5 1934 133008218

3.5433 6.2992 2.3622 .08 .04 29900 3210015

.9063 4.9394 435 2990

95 170 64 2.0 1.0 151000 163000 24.606 133.0 2499 151008219

3.7402 6.6929 2.5197 .08 .04 33900 3660015

.9688 5.2360 562 3390

100 180 68 2.0 1.0 159000 173000 25.400 140.5 2917 159008220

3.9370 7.0866 2.6772 .08 .04 35700 3890015

1.0000 5.5318 656 3570

110 200 76 2.0 1.0 190000 220000 28.575 155.6 4586 190008222

4.3307 7.8740 2.9921 .08 .04 42700 4950015

1.1250 6.1248 1031 4270

120 215 80 2.0 1.0 238000 245000 30.163 168.1 1464 5) 29986 5)8224

4.7244 8.4646 3.1496 .08 .04 53500 5510015

1.1875 6.6184 329 6741

190 340 110 3.0 1.0 351000 570000 42.863 265.9 7678 5) 44223 5)8238

7.4803 13.3858 4.3307 .12 .04 78900 12800017

1.6875 10.4668 1727 9941

40 90 46 1.5 1.0 60500 45500 16.669 65.0 233 60508308

1.5748 3.5433 1.8110 .06 .04 13600 1020010

.6563 2.5591 53 1360

45 100 50 1.5 1.0 76100 61000 18.256 72.5 377 76108309

1.7717 3.9370 1.9685 .06 .04 17100 1370011

.7188 2.8544 85 1710

50 110 54 2.0 1.0 87100 72000 19.844 80.0 537 87108310

1.9685 4.3307 2.1260 .08 .04 19600 1620011

.7813 3.1496 121 1960

55 120 58 2.0 1.0 101000 85000 21.431 87.5 743 101008311

2.1654 4.7244 2.2835 .08 .04 22700 1910011

.8438 3.4449 167 2270

60 130 62 2.0 1.0 114000 96500 23.019 95.0 1002 114008312

2.3622 5.1181 2.4409 .08 .04 25600 2170011

.9063 3.7402 226 2560

65 140 66 2.0 1.0 127000 112000 24.606 102.5 1324 127008313

2.5591 5.5118 2.5984 .08 .04 28500 2520011

.9688 4.0355 298 2850

70 150 70 2.0 1.0 148000 134000 26.988 110.0 1863 148008314

2.7559 5.9055 2.7559 .08 .04 33300 3150011

1.0625 4.3307 419 3330

75 160 74 2.0 1.0 159000 150000 28.575 117.5 2368 159008315

2.9528 6.2992 2.9134 .08 .04 35700 3370011

1.1250 4.6260 533 3570

80 170 78 2.0 1.0 172000 166000 30.163 125.0 2970 172008316

3.1496 6.6929 3.0709 .08 .04 38700 3730011

1.1875 4.9213 668 3870

85 180 82 2.5 1.0 186000 186000 31.750 132.5 3679 186008317

3.3465 7.0866 3.2283 .10 .04 41800 4180011

1.2500 5.2166 827 4180

90 190 86 2.5 1.0 199000 204000 33.338 140.0 4508 199008318

3.5433 7.4803 3.3858 .10 .04 44700 4590011

1.3125 5.5118 1014 4470

95 200 90 2.5 1.0 212000 228000 34.925 147.5 5470 212008319

3.7402 7.8740 3.5433 .10 .04 47600 5130011

1.3750 5.8071 1230 4760

100 215 94 2.5 1.0 238000 270000 36.513 157.5 7325 238008320

3.9370 8.4646 3.7008 .10 .04 53500 6070012

1.4375 6.2008 1647 5350

110 240 100 2.5 1.0 265000 320000 39.688 175.0 2629 5) 33388 5)8322

4.3307 9.4488 3.9370 .10 .04 59600 7190012

1.5625 6.8898 591 7510

130 280 116 3.0 1.0 345000 455000 47.625 205.0 5286 5) 43467 5)8326

5.1181 11.0236 4.5669 .12 .04 77500 10200012

1.8750 8.0709 1189 9765

150 320 130 3.0 1.0 410000 585000 53.975 235.0 8849 5) 51657 5)8330

5.9055 12.5984 5.1181 .12 .04 92100 13200012

2.1250 9.2520 1990 11604

180 380 150 3.0 1.0 507000 815000 60.325 280.0 16219 5) 63878 5)8336

7.0866 14.9606 5.9055 .12 .04 114000 18300013

2.3750 11.0236 3647 14363

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49

BASIC RADIAL LOAD RATING 2) BALLS PER ROW PITCH MIN. REQD.5)

THRUST FOR5)

DYNAMIC 4) STATIC NUMBER DIAMETER DIAMETER THRUST AT 25000 HRSC Co mm mm 3600 RPM L10 @ 3600 RPMN N in in N Nlbf lbf lbf lbf

15° (B) Bearing 3)

124000 108000 22.225 125.4 270 5890 90.018 90.003 160.025 160.00027900 24300

15.8750 4.9362 61 1326

3400 45003.5440 3.5434 6.3002 6.2992

133000 118000 22.225 133.4 311 6318 95.018 95.003 170.025 170.00029900 26500

16.8750 5.2516 70 1421

3200 43003.7409 3.7403 6.6939 6.6929

146000 134000 23.813 141.7 405 6935 100.018 100.003 180.025 180.00032800 30100

16.9375 5.5768 91 1558

3000 40003.9377 3.9371 7.0876 7.0866

182000 170000 26.988 156.9 649 8645 110.018 110.003 200.029 200.00040900 38200

161.0625 6.1754 146 1943

2600 36004.3314 4.3308 7.8751 7.8740

199000 193000 28.575 167.9 207 5) 11910 5) 120.018 120.003 215.029 215.00044700 43400

161.1250 6.6096 47 2676

2200 32004.7251 4.7245 8.4657 8.4646

377000 500000 42.863 265.4 1186 5) 22562 5) 190.024 190.004 340.036 340.00084800 112000

171.6875 10.4500 267 5075

1400 19007.4812 7.4805 13.3872 13.3858

48800 33500 14.288 65.3 28 2318 40.013 40.002 90.022 90.00011000 7530

12.5625 2.5719 7 523

6700 90001.5753 1.5749 3.5442 3.5433

58500 40500 15.875 72.9 43 2779 45.013 45.002 100.022 100.00013200 9100

12.6250 2.8687 10 627

6000 80001.7722 1.7718 3.9379 3.9370

76100 52000 19.050 78.8 71 3615 50.013 50.002 110.022 110.00017100 11700

11.7500 3.1025 16 813

5300 70001.9690 1.9686 4.3316 4.3307

88400 61000 20.638 85.4 97 4199 55.015 55.002 120.022 120.00019900 13700

11.8125 3.3610 22 946

4800 63002.1660 2.1655 4.7253 4.7244

101000 71000 22.225 95.0 137 4798 60.015 60.002 130.025 130.00022700 16000

11.8750 3.7401 31 1079

4500 60002.3628 2.3623 5.1191 5.1181

108000 80000 22.225 103.0 167 5130 65.015 65.002 140.025 140.00024300 18000

12.8750 4.0557 38 1155

4300 56002.5597 2.5592 5.5128 5.5118

121000 93000 23.813 110.6 221 5748 70.015 70.002 150.025 150.00027200 20900

12.9375 4.3524 50 1292

3800 50002.7565 2.7560 5.9065 5.9055

146000 114000 25.400 118.1 310 6935 75.015 75.002 160.025 160.00032800 25600

131.0000 4.6491 70 1558

3600 48002.9534 2.9529 6.3002 6.2992

159000 129000 26.988 125.6 395 7553 80.015 80.002 170.025 170.00035700 29200

131.0625 4.9459 89 1696

3400 45003.1502 3.1497 6.6939 6.6929

174000 146000 28.575 133.2 497 8265 85.018 85.003 180.025 180.00039100 32800

131.1250 5.2427 112 1858

3200 43003.3472 3.3466 7.0876 7.0866

186000 160000 30.163 140.0 614 8835 90.018 90.003 190.029 190.00041800 36000

131.1875 5.5118 138 1986

3000 40003.5440 3.5434 7.4814 7.4803

199000 180000 31.750 148.2 759 9453 95.018 95.003 200.029 200.00044700 40500

131.2500 5.8361 171 2124

2800 38003.7409 3.7403 7.8751 7.8740

212000 200000 33.338 158.3 944 10070 100.018 100.003 215.029 215.00047700 45000

131.3125 6.2318 213 2266

2600 36003.9377 3.9371 8.4657 8.4646

255000 255000 38.100 175.9 388 5) 15261 5) 110.018 110.003 240.029 240.00057300 57300

131.5000 6.9242 88 3430

2200 32004.3314 4.3308 9.4499 9.4488

296000 345000 44.450 203.8 712 5) 17715 5) 130.021 130.003 280.032 280.00066500 77600

131.7500 8.0227 160 3980

1800 26005.1189 5.1182 11.0249 11.0236

390000 475000 49.213 233.6 1120 5) 23340 5) 150.021 150.003 320.036 320.00087700 107000

131.9375 9.1956 252 5249

1600 22005.9063 5.9056 12.5998 12.5984

475000 640000 57.150 278.3 2270 5) 28427 5) 180.021 180.003 380.036 380.000107000 144000

142.2500 10.9561 511 6404

1300 16007.0874 7.0867 14.9620 14.9606

SPEED RATING RECOMMENDED RECOMMENDEDSHAFT DIAMETER (k5) HOUSING DIAMETER (H6)

GREASE OIL MAXIMUM MINIMUM MAXIMUM MINIMUMmm mm mm mm

RPM RPM in in in in

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51

8000AAB series PumPac® Triplex 40°/40°/15° angular contact ball bearings

The PumPac 8000AAB series consists of a triplex set with two tandem mounted 40° bearings matched back-to-back with one 15° bearing.

• ABEC-3 tolerances• 40°/40°/15° contact angles• Land-riding, machined brass cage• CB axial clearance• Heat treated for dimensional stability

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MRC Bearing Services 1-800-MRC-7000

1) Fillet radius indicates maximum fillet radius on shaft or in housing which bearing corner will clear2) For thrust rating of bearings (AA), multiply C by 1.75 and Co by 3.85. For thrust rating of bearing (B), multiply C by 0.83 and Co by 2.003) Values have been determined through historical application and practice4) Rating for one million revolutions or 500 hours at 331⁄3 RPM claculated according to actual bearing raceway geometry5) Based on 1800 RPM for 8224AAB, 8238AAB, and 8322AAB through 8336AAB

8000AAB series PumPac® Triplex 40°/40°/15° angular contact ball bearings

MRC BORE OUTSIDE WIDTHFILLET RADIUS BASIC RADIAL LOAD RATING 2) BALLS PER ROW PITCH MIN. REQD.

5)THRUST FOR

5)

BEARING d DIAMETER B ra r b DYNAMIC 4) STATIC NUMBER DIAMETER DIAMETER THRUST AT 25000 HRSNUMBER mm D mm mm mm C Co mm mm 3600 RPM L10 @ 3600 RPM

in mm in in in N N in in N Nin lbf lbf lbf lbf

40° (AA) Bearings1)

90 160 90 2.0 1.0 216000 285000 23.019 125.5 3868 216008218AAB

3.5433 6.2992 3.5433 .08 .04 48500 6410015

.9063 4.9394 870 4850

95 170 96 2.0 1.0 247000 325000 24.606 133.0 4998 247008219AAB

3.7402 6.6929 3.7795 .08 .04 55500 7310015

.9688 5.2360 1124 5550

100 180 102 2.0 1.0 260000 345000 25.400 140.5 5834 260008220AAB

3.9370 7.0866 4.0157 .08 .04 58400 7870015

1.0000 5.5318 1312 5840

110 200 114 2.0 1.0 307000 440000 28.575 155.6 9172 307008222AAB

4.3307 7.8740 4.4882 .08 .04 69000 9890015

1.1250 6.1248 2062 6900

120 215 120 2.0 1.0 390000 490000 30.163 168.1 2928 5) 49137 5)8224AAB

4.7244 8.4646 4.7244 .08 .04 87600 11000015

1.1875 6.6184 658 11037

190 340 165 3.0 1.0 572000 1140000 42.863 265.9 15356 5) 72067 5)8238AAB

7.4803 13.3858 6.4961 .12 .04 129000 25600017

1.6875 10.4668 3454 16253

40 90 69 1.5 1.0 97500 91500 16.669 65.0 466 97508308AAB

1.5748 3.5433 2.7165 .06 .04 21900 2060010

.6563 2.5591 106 2190

45 100 75 1.5 1.0 124000 122000 18.256 72.5 754 124008309AAB

1.7717 3.9370 2.9528 .06 .04 27900 27400 11 .7188 2.8544 170 2790

50 110 81 2.0 1.0 143000 143000 19.844 80.0 1074 143008310AAB

1.9685 4.3307 3.1890 .08 .04 32100 3210011

.7813 3.1496 242 3210

55 120 87 2.0 1.0 165000 170000 21.431 87.5 1486 165008311AAB

2.1654 4.7244 3.4252 .08 .04 37100 3820011

.8438 3.4449 334 3710

60 130 93 2.0 1.0 186000 193000 23.019 95.0 2004 186008312AAB

2.3622 5.1181 3.6614 .08 .04 41800 4340011

.9063 3.7402 452 4180

65 140 99 2.0 1.0 208000 224000 24.606 102.5 2648 208008313AAB

2.5591 5.5118 3.8976 .08 .04 46700 5040011

.9688 4.0355 596 4670

70 150 105 2.0 1.0 242000 270000 26.988 110.0 3726 242008314AAB

2.7559 5.9055 4.1339 .08 .04 54400 6070011

1.0625 4.3307 838 5440

75 160 111 2.0 1.0 260000 300000 28.575 117.5 4736 260008315AAB

2.9528 6.2992 4.3701 .08 .04 58400 6740011

1.1250 4.6260 1066 5840

80 170 117 2.0 1.0 281000 335000 30.163 125.0 5940 281008316AAB

3.1496 6.6929 4.6063 .08 .04 63100 7530011

1.1875 4.9213 1336 6310

85 180 123 2.5 1.0 302000 375000 31.750 132.5 7358 302008317AAB

3.3465 7.0866 4.8425 .10 .04 67900 8430011

1.2500 5.2166 1654 6790

90 190 129 2.5 1.0 325000 405000 33.338 140.0 9016 325008318AAB

3.5433 7.4803 5.0787 .10 .04 73000 9100011

1.3125 5.5118 2028 7300

95 200 135 2.5 1.0 345000 455000 34.925 147.5 10940 345008319AAB

3.7402 7.8740 5.3150 .10 .04 77500 10200011

1.3750 5.8071 2460 7750

100 215 141 2.5 1.0 390000 540000 36.513 157.5 14650 390008320AAB

3.9370 8.4646 5.5512 .10 .04 87600 12100012

1.4375 6.2008 3294 8760

110 240 150 2.5 1.0 436000 640000 39.688 175.0 5258 5) 54932 5)8322AAB

4.3307 9.4488 5.9055 .10 .04 98000 14400012

1.5625 6.8898 1182 12348

130 280 174 3.0 1.0 559000 915000 47.625 205.0 10572 5) 70429 5)8326AAB

5.1181 11.0236 6.8504 .12 .04 126000 20600012

1.8750 8.0709 2378 15875

150 320 195 3.0 1.0 663000 1180000 53.975 235.0 17698 5) 83532 5)8330AAB

5.9055 12.5984 7.6772 .12 .04 149000 26500012

2.1250 9.2520 3980 18773

180 380 225 3.0 1.0 824000 1630000 60.325 280.0 32438 5) 103817 5)8336AAB

7.0866 14.9606 8.8583 .12 .04 185000 36600013

2.3750 11.0236 7294 23309

Page 152: Anti Friction Bearings for Pumps

53

3)

SPEED RATING RECOMMENDED RECOMMENDEDSHAFT DIAMETER (k5) HOUSING DIAMETER (H6)

GREASE OIL MAXIMUM MINIMUM MAXIMUM MINIMUMmm mm mm mm

RPM RPM in in in in

BASIC RADIAL LOAD RATING 2) BALLS PER ROW PITCH MIN. REQD.5)

THRUST FOR5)

DYNAMIC 4) STATIC NUMBER DIAMETER DIAMETER THRUST AT 25000 HRSC Co mm mm 3600 RPM L10 @ 3600 RPMN N in in N Nlbf lbf lbf lbf

15° (B) Bearing

124000 108000 22.225 125.4 270 5890 90.018 90.003 160.025 160.00027900 24300

15.8750 4.9362 61 1326

3400 45003.5440 3.5434 6.3002 6.2992

133000 118000 22.225 133.4 311 6318 95.018 95.003 170.025 170.00029900 26500

16.8750 5.2516 70 1421

3200 43003.7409 3.7403 6.6939 6.6929

146000 134000 23.813 141.7 405 6935 100.018 100.003 180.025 180.00032800 30100

16.9375 5.5768 91 1558

3000 40003.9377 3.9371 7.0876 7.0866

182000 170000 26.988 156.9 649 8645 110.018 110.003 200.029 200.00040900 38200

161.0625 6.1754 146 1943

2600 36004.3314 4.3308 7.8751 7.8740

199000 193000 28.575 167.9 207 5) 11910 5) 120.018 120.003 215.029 215.00044700 43400

161.1250 6.6096 47 2676

2200 32004.7251 4.7245 8.4657 8.4646

377000 500000 42.863 265.4 1186 5) 22562 5) 190.024 190.004 340.036 340.00084800 112000

171.6875 10.4500 267 5075

1400 19007.4812 7.4805 13.3872 13.3858

48800 33500 14.288 65.3 28 2318 40.013 40.002 90.022 90.00011000 7530

12.5625 2.5719 7 523

6700 90001.5753 1.5749 3.5442 3.5433

58500 40500 15.875 72.9 43 2779 45.013 45.002 100.022 100.00013200 9100

12.6250 2.8687 10 627

6000 80001.7722 1.7718 3.9379 3.9370

76100 52000 19.050 78.8 71 3615 50.013 50.002 110.022 110.00017100 11700

11.7500 3.1025 16 813

5300 70001.9690 1.9686 4.3316 4.3307

88400 61000 20.638 85.4 97 4199 55.015 55.002 120.022 120.00019900 13700

11.8125 3.3610 22 946

4800 63002.1660 2.1655 4.7253 4.7244

101000 71000 22.225 95.0 137 4798 60.015 60.002 130.025 130.00022700 16000

11.8750 3.7401 31 1079

4500 60002.3628 2.3623 5.1191 5.1181

108000 80000 22.225 103.0 167 5130 65.015 65.002 140.025 140.00024300 18000

12.8750 4.0557 38 1155

4300 56002.5597 2.5592 5.5128 5.5118

121000 93000 23.813 110.6 221 5748 70.015 70.002 150.025 150.00027200 20900

12.9375 4.3524 50 1292

3800 50002.7565 2.7560 5.9065 5.9055

146000 114000 25.400 118.1 310 6935 75.015 75.002 160.025 160.00032800 25600

131.0000 4.6491 70 1558

3600 48002.9534 2.9529 6.3002 6.2992

159000 129000 26.988 125.6 395 7553 80.015 80.002 170.025 170.00035700 29200

131.0625 4.9459 89 1696

3400 45003.1502 3.1497 6.6939 6.6929

174000 146000 28.575 133.2 497 8265 85.018 85.003 180.025 180.00039100 32800

131.1250 5.2427 112 1858

3200 43003.3472 3.3466 7.0876 7.0866

186000 160000 30.163 140.0 614 8835 90.018 90.003 190.029 190.00041800 36000

131.1875 5.5118 138 1986

3000 40003.5440 3.5434 7.4814 7.4803

199000 180000 31.750 148.2 759 9453 95.018 95.003 200.029 200.00044700 40500

131.2500 5.8361 171 2124

2800 38003.7409 3.7403 7.8751 7.8740

212000 200000 33.338 158.3 944 10070 100.018 100.003 215.029 215.00047700 45000

131.3125 6.2318 213 2266

2600 36003.9377 3.9371 8.4657 8.4646

255000 255000 38.100 175.9 388 5) 15261 5) 110.018 110.003 240.029 240.00057300 57300

131.5000 6.9242 88 3430

2200 32004.3314 4.3308 9.4499 9.4488

296000 345000 44.450 203.8 712 5) 17715 5) 130.021 130.003 280.032 280.00066500 77600

131.7500 8.0227 160 3980

1800 26005.1189 5.1182 11.0249 11.0236

390000 475000 49.213 233.6 1120 5) 23340 5) 150.021 150.003 320.036 320.00087700 107000

131.9375 9.1956 252 5249

1600 22005.9063 5.9056 12.5998 12.5984

475000 640000 57.150 278.3 2270 5) 28427 5) 180.021 180.003 380.036 380.000107000 144000

142.2500 10.9561 511 6404

1300 16007.0874 7.0867 14.9620 14.9606

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55

8000BB series PumPac® Diamond 15°/15° angular contact ball bearings

The PumPac Diamond series consists of two “B” bearings from the regular PumPac series.These 15° angular contact ball bearings areplaced back-to-back, so that the etching on thebearing outside diameters form a diamond. Thisbearing system is designed to carry primarilyradial loads with light thrust loads in eitherdirection. It incorporates all of the other PumPacfeatures including the land-riding, machinedbrass cage and special heat treatment foroptimum dimensional stability.

• ABEC-3 tolerances• 15O/15O contact angles• Land-riding, machined brass cage• CB axial clearance• Heat treated for dimensional stability• “Diamond” etched O.D.

The PumPac Diamond is used in centrifugalpumps and motors where the thrust loads arelight and radial loads predominate. Doublesuction impeller pumps, including the popularaxially split case or “between bearings” design,and pumps with closed impellers usually benefitfrom this bearing solution. The 15° contact anglecauses the bearings to run cooler in these typesof pumps. Vibration is also substantially reduced.Even though the calculated life of the PumPacDiamond may be less than that for a 40° bearingsolution, longer service life in a low thrust loadapplication can be expected. PumPac Diamondbearing sets are supplied in pairs, strappedtogether, ready for assembly. PumPac Diamondcan not be installed backwards, because bothbearings are identical. In high temperatureapplications, it may be necessary to provideextra clearance in the set to avoid radial preload.Call 1-800-MRC-7000 for assistance indetermining the correct clearance.

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MRC Bearing Services 1-800-MRC-7000

1) Fillet radius indicates maximum fillet radius on shaft or in housing which bearing corner will clear2) For thrust rating, multiply C by 0.51 and Co by 1.003) Values have been determined through historical application and practice4) Rating for one million revolutions or 500 hours at 331⁄3 RPM claculated according to actual bearing raceway geometry.5) Based on 1800 RPM for 8238BB, and 8326BB through 8336BB

8000BB series PumPac® Diamond 15°/15° angular contact ball bearings

MRC BORE OUTSIDE WIDTH FILLET RADIUS 1) BASIC RADIAL LOAD RATING 2) BALLS PER ROW

BEARING d DIAMETER B ra r b DYNAMIC 4) STATIC NUMBER DIAMETERNUMBER mm D mm mm mm C Co mm

in mm in in in N N ininlbf lbf

90 160 60 2.0 1.0 203000 216000 22.2258218BB 3.5433 6.2992 2.3622 .08 .04 45600 48600 15 .875095 170 64 2.0 1.0 216000 236000 22.2258219BB 3.7402 6.6929 2.5197 .08 .04 48600 53100 16 .8750100 180 68 2.0 1.0 238000 270000 23.8138220BB 3.9370 7.0866 2.6772 .08 .04 53500 60700 16 .9375110 200 76 2.0 1.0 296000 340000 26.9888222BB 4.3307 7.8740 2.9921 .08 .04 66500 76400 16 1.0625120 215 80 2.0 1.0 319000 390000 28.5758224BB 4.7244 8.4646 3.1496 .08 .04 71800 87700 16 1.1250190 340 110 3.0 1.0 605000 1000000 42.8638238BB 7.4803 13.3858 4.3307 .12 .04 136000 225000 17 1.687540 90 46 1.5 1.0 79300 67000 14.2888308BB 1.5748 3.5433 1.8110 .06 .04 17800 15100 12 .562545 100 50 1.5 1.0 95600 81500 15.8758309BB 1.7717 3.9370 1.9685 .06 .04 21500 18300 12 .625050 110 54 2.0 1.0 124000 104000 19.0508310BB 1.9685 4.3307 2.1260 .08 .04 27900 23400 11 .750055 120 58 2.0 1.0 143000 122000 20.6388311BB 2.1654 4.7244 2.2835 .08 .04 32100 27400 11 .8125

60 130 62 2.0 1.0 165000 143000 22.2258312BB 2.3622 5.1181 2.4409 .08 .04 37100 32100 11 .875065 140 66 2.0 1.0 174000 160000 22.2258313BB 2.5591 5.5118 2.5984 .08 .04 39100 36000 12 .875070 150 70 2.0 1.0 199000 190000 23.8138314BB 2.7559 5.9055 2.7559 .08 .04 44700 42700 12 .937575 160 74 2.0 1.0 238000 228000 25.4008315BB 2.9528 6.2992 2.9134 .08 .04 53500 51300 13 1.000080 170 78 2.0 1.0 255000 260000 26.9888316BB 3.1496 6.6929 3.0709 .08 .04 57300 58500 13 1.062585 180 82 2.5 1.0 281000 292000 28.5758317BB 3.3465 7.0866 3.2283 .10 .04 63200 65600 13 1.125090 190 86 2.5 1.0 302000 325000 30.1638318BB 3.5433 7.4803 3.3858 .10 .04 67900 73100 13 1.187595 200 90 2.5 1.0 325000 360000 31.7508319BB 3.7402 7.8740 3.5433 .10 .04 73100 80900 13 1.2500100 215 94 2.5 1.0 345000 400000 33.3388320BB 3.9370 8.4646 3.7008 .10 .04 77600 89900 13 1.3125110 240 100 2.5 1.0 416000 510000 38.1008322BB 4.3307 9.4488 3.9370 .10 .04 93500 115000 13 1.5000130 280 116 3.0 1.0 475000 695000 44.4508326BB 5.1181 11.0236 4.5669 .12 .04 107000 156000 13 1.7500150 320 130 3.0 1.0 624000 950000 49.2138330BB 5.9055 12.5984 5.1181 .12 .04 140000 214000 13 1.9375180 380 150 3.0 1.0 780000 1270000 57.1508336BB 7.0866 14.9606 5.9055 .12 .04 175000 286000 14 2.2500

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57

PITCH MIN. REQD. 5)

THRUST FOR5)

SPEED RATING 3) RECOMMENDED RECOMMENDED

DIAMETER THRUST LOAD 25000 HRS SHAFT DIAMETER (k5) HOUSING DIAMETER (H6)

mm AT 3600 RPM L10 AT 3600 RPM GREASE OIL MAXIMUM MINIMUM MAXIMUM MINIMUMin N N mm mm mm mm

lbf lbf RPM RPM in in in in

125.4 270 5904 90.018 90.003 160.025 160.0004.9362 61 1327 3800 5400 3.5440 3.5434 6.3002 6.2992133.4 311 6282 95.018 95.003 170.025 170.000

5.2516 70 1414 3600 5100 3.7409 3.7403 6.6939 6.6929141.7 405 6922 100.018 100.003 180.025 180.000

5.5768 91 1556 3400 4800 3.9377 3.9371 7.0876 7.0866156.9 649 8609 110.018 110.003 200.029 200.000

6.1754 146 1934 3000 4400 4.3314 4.3308 7.8751 7.8740167.9 826 9277 120.018 120.003 215.029 215.000

6.6096 186 2089 2800 4100 4.7251 4.7245 8.4657 8.4646265.4 1186 5) 22168 5) 190.024 190.004 340.036 340.000

10.4500 267 4984 1800 2600 7.4812 7.4805 13.3872 13.385865.3 28 2307 40.013 40.002 90.022 90.000

2.5719 7 518 7500 11000 1.5753 1.5749 3.5442 3.543372.9 43 2781 45.013 45.002 100.022 100.000

2.8687 10 626 6800 9600 1.7722 1.7718 3.9379 3.937078.8 71 3607 50.013 50.002 110.022 110.000

3.1025 16 812 6300 9000 1.9690 1.9686 4.3316 4.330785.4 97 4159 55.015 55.002 120.022 120.000

3.3610 22 934 5600 8100 2.1660 2.1655 4.7253 4.7244

95.0 137 4799 60.015 60.002 130.025 130.0003.7401 31 1079 5000 7200 2.3628 2.3623 5.1191 5.1181103.0 167 5061 65.015 65.002 140.025 140.0004.0557 38 1138 4800 6800 2.5597 2.5592 5.5128 5.5118110.6 221 5788 70.015 70.002 150.025 150.0004.3524 50 1300 4500 6300 2.7565 2.7560 5.9065 5.9055118.1 310 6922 75.015 75.002 160.025 160.0004.6491 70 1556 4300 6000 2.9534 2.9529 6.3002 6.2992125.6 395 7416 80.015 80.002 170.025 170.0004.9459 89 1667 3800 5400 3.1502 3.1497 6.6939 6.6929133.2 497 8172 85.018 85.003 180.025 180.0005.2427 112 1838 3600 5100 3.3472 3.3466 7.0876 7.0866140.0 614 8783 90.018 90.003 190.029 190.0005.5118 138 1975 3400 4800 3.5440 3.5434 7.4814 7.4803148.2 759 9452 95.018 95.003 200.029 200.0005.8361 171 2126 3300 4500 3.7409 3.7403 7.8751 7.8740158.3 944 10034 100.018 100.003 215.029 215.0006.2318 213 2257 3000 4400 3.9377 3.9371 8.4657 8.4646175.9 1550 12098 110.018 110.003 240.029 240.0006.9242 349 2720 2600 3900 4.3314 4.3308 9.4499 9.4488203.8 712 5) 17405 5) 130.021 130.003 280.032 280.000

8.0227 160 3921 2300 3300 5.1189 5.1182 11.0249 11.0236233.6 1120 5) 22864 5) 150.021 150.003 320.036 320.000

9.1956 252 5130 2000 2900 5.9063 5.9056 12.5998 12.5984278.3 2270 5) 28580 5) 180.021 180.003 380.036 380.000

10.9561 511 6413 1600 2400 7.0874 7.0867 14.9620 14.9606

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59

The extraordinary feature of the MRC 9000Uand 9000UP series angular contact ballbearings is the split inner ring that allows theassembly of an optimum ball complementwhile accommodating thrust in eitherdirection. The thrust capacity in eitherdirection is equal to the equivalent size7000DU or 7000PDU bearing.

• ABEC-1 tolerances

• Split inner rings

• 9000U: 29° contact angle

• 9000UP: 40° contact angle

• Land-guided machined bronze cage

The split inner ring bearing can be matched intandem with a single 7000 or 7000P series typebearing with the same contact angle. This config-uration yields two bearing shared thrust capacityin one direction and one bearing thrust capacityin the opposite direction.

The spilt inner ring bearing is usually paired with a 7000 or 7000P series bearing for use in pumpsor motors, as a 97000U2 or 97000UP2 set. Theletter “P” identifies the bearing or set as having a40° contact angle.

• 97000U2: 29° set consisting of one 9000UDT and one 7000DT

• 97000UP2: 40° set consisting of one 9000UPDT and one 7000PDT

This bearing set is commonly used in verticalmotors or pumps to handle the primary thrustload. Because two bearings acting in tandemshare the thrust load, this solution offers anextremely high thrust carrying capacity. Reversing thrust load can be accommodated on the back side of the split inner ring bearing.

Another common application of this bearingsystem is stirrer motors for ethylene reactors. Inthis application, the bearing depends upon thereactor’s plasma for lubrication. MRC offers avariety of materials and cage designs to provideoptimum service life with marginal lubrication.

For proper mounting orientation, please refer tothe stuffer provided in the bearing box.

97000U2 (and 9000U) series 29° angular contact split inner ring ball bearing sets

97000UP2 (and 9000UP) series 40° angular contact split inner ring ball bearing sets

97000 U2 97000 UP2

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60

MRC Bearing Services 1-800-MRC-7000

1) Fillet radius indicates maximum fillet radius on shaft or in housing which bearing corner will clear2) For thrust rating of 97000U2 series, multiply C by 1.32 and Co by 2.94

For thrust rating of 97000UP2 series, multiply C by 1.76 and Co by 3.863) Listed values are for machined bronze cage and have been determined through historical application and practice4) Rating for one million revolutions or 500 hours at 331⁄3 RPM5) Based on 1800 RPM for 97222UP2 through 97230UP2 and 97318UP2 through 97320UP2

97000U2 (and 9000U) series 29° angular contact split inner ring ball bearing sets

97000UP2 (and 9000UP) series 40° angular contact split inner ring ball bearing sets

MRC BORE OUTSIDE WIDTH FILLET RADIUS 1) BASIC RADIAL LOAD RATING 2) BALLS PER ROW

BEARING d DIAMETER B ra rb DYNAMIC 4) STATIC NUMBER DIAMETERNUMBER mm D mm mm mm C Co mm

in mm in in in N N inin lbf lbf

90 160 60 2.0 1.0 190000 236000 22.22597218U2 3.5433 6.2992 2.3622 .08 .04 42700 53100 16 .875065 140 66 2.0 1.0 178000 173000 22.22597313U2 2.5591 5.5118 2.5984 .08 .04 40000 38900 14 .875075 160 74 2.0 1.0 225000 228000 25.40097315U2 2.9528 6.2992 2.9134 .08 .04 50600 51300 14 1.000085 180 82 2.5 1.0 265000 285000 28.57597317U2 3.3465 7.0866 3.2283 .10 .04 59600 64100 14 1.1250

110 200 76 2.0 1.0 251000 310000 28.57597222UP2 4.3307 7.8740 2.9921 .08 .04 56400 69700 15 1.1250120 215 80 2.0 1.0 270000 325000 30.16397224UP2 4.7244 8.4646 3.1496 .08 .04 60700 73100 15 1.1875150 270 90 2.5 1.0 351000 520000 34.92597230UP2 5.9055 10.6299 3.5433 .10 .04 78900 117000 17 1.375070 150 70 2.0 1.0 190000 186000 26.98897314UP2 2.7559 5.9055 2.7559 .08 .04 42700 41800 11 1.062590 190 86 2.5 1.0 255000 270000 33.33897318UP2 3.5433 7.4803 3.3858 .10 .04 57300 60700 11 1.3125100 215 94 2.5 1.0 307000 380000 36.51397320UP2 3.9370 8.4646 3.7008 .10 .04 69000 85400 12 1.4375

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61

PITCH MIN. REQD.5)

THRUST FOR5)

SPEED RATING 3) RECOMMENDED RECOMMENDED

DIAMETER THRUST LOAD 25000 HRS SHAFT DIAMETER (k5) HOUSING DIAMETER (H6)

mm AT 3600 RPM L10 AT 3600 RPM GREASE OIL MAXIMUM MINIMUM MAXIMUM MINIMUMin N N mm mm mm mm

lbf lbf RPM RPM in in in in

124.5 2048 14250 90.018 90.003 160.025 160.0004.9012 462 3203 2900 3800 3.5440 3.5434 6.3002 6.2992103.0 1410 13350 65.015 65.002 140.025 140.000

4.0557 318 3000 3700 4800 2.5597 2.5592 5.5128 5.5118118.1 2414 16875 75.015 75.002 160.025 160.000

4.6491 544 3795 3100 4000 2.9534 2.9529 6.3002 6.2992133.2 3880 19875 85.018 85.003 180.025 180.000

5.2427 872 4470 2800 3600 3.3472 3.3466 7.0876 7.0866

155.5 2292 5) 31624 5) 110.018 110.003 200.029 200.0006.1204 516 7106 1900 2800 4.3314 4.3308 7.8751 7.8740167.5 2916 5) 34018 5) 120.018 120.003 215.029 215.0006.5945 656 7648 1700 2400 4.7251 4.7245 8.4657 8.4646210.0 6526 5) 44223 5) 150.021 150.003 270.032 270.0008.2677 1468 9941 1500 2000 5.9063 5.9056 10.6312 10.6299110.0 3726 19000 70.015 70.002 150.025 150.000

4.3307 838 4270 3000 4000 2.7565 2.7560 5.9065 5.9055140.0 2254 5) 32128 5) 90.018 90.003 190.029 190.0005.5118 508 7220 2200 3200 3.5440 3.5434 7.4814 7.4803157.5 3664 5) 38680 5) 100.018 100.003 215.029 215.0006.2008 824 8694 1900 2800 3.9377 3.9371 8.4657 8.4646

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MRC Bearing Services

MRC Bearing Services1510 Gehman RoadKulpsville, PA 19443USA

Call Toll Free: 1(800) MRC-7000(215) 513-4400Toll Free Fax: 1-888-322-4672www.mrcbearingservices.com

® MRC is a registered trademark of SKF USA Inc. Marathon and ZMarC are registered trademarks of SKF USA Inc. The contents of this publication are the copyright of the publisher and may not be reproduced (even extracts) unless permission is granted. Every care has beentaken to ensure the accuracy of the information contained in this publication but no liability can be accepted for any loss or damage whether direct, indirect orconsequential arising out of use of the information contained herein.

©2002 SKF USA Inc. Publication M230-700 10M (12/2003 AN) Version 12/2003 Printed in USA

®

Page 163: Anti Friction Bearings for Pumps

Increase mean time between failure of heavy-duty slurry pumps with unique shaft solutions from SKF.

When a heavy-duty slurry pump is subject-ed to severe cavitation and abrasives, the resulting wear and damage to the impeller cause an imbalanced condition. Though it is virtually impossible to eliminate the imbal-ance, it is possible to substantially reduce the damage that it causes.

To reduce the damaging effects of impeller imbalance, the SKF total shaft solution, combines unique bearing and seal arrangements with SKF adapter sleeves and special mounting tools. With this combina-tion of SKF products, your pump bearings will run cooler, smoother and longer – providing extended service life for your customers and added value for you.

The SKF self-aligning bearing solutionSKF’s unique self-aligning bearing system uses a spherical roller bearing in combination with a spherical roller thrust bearing on the dry end of the pump shaft, and a CARB® toroidal roller bearing on the wet end of the shaft. This unique bearing system can sub-stantially reduce vibrations caused by impeller imbalance. The CARB bearing also accommo-dates thermal elongation of the shaft within the bearing, to avoid the problem of induced axial loads on the bearings; enabling the system to tolerate heavier axial loads for improved flow rates and efficiency.

Technical data sheet

EA Technical data sheet CS2 v03 | 2006-05-25 M – Master

Page 164: Anti Friction Bearings for Pumps

SKF is a registered trademark of the SKF Group.

© SKF Group 2007The contents of this publication are the copyright of the publisher and may not be reproduced (even extracts) unless permission is granted. Every care has been taken to ensure the accuracy of the information contained in this publication but no liability can be accep-ted for any loss or damage whether direct, indirect or consequential arising out of the use of the information contained herein.

Publication 6352 EN

Printed in Sweden.

skf.com/mount

1 SKF bearings for the locating positions When an SKF Explorer spherical roller bearing and an SKF Explorer spherical roller thrust bearing are combined properly, they can:

Accommodate up to .5° of shaft misalignmentResist wear and damage caused by con-taminants to extend service life Maximize the effects of the lubricant to reduce heat generated by the bearings, and increase service lifeAccommodate considerably heavier thrust loads than other types of similarly sized thrust bearings Simplify mounting or dismounting when used in conjunction with adapter sleeves

2 CARB bearings for the non-locating positionTo accommodate thermal expansion of the shaft, pump designers traditionally use a cylindrical roller bearing on the wet end of the shaft. However, these bearings do not accommodate the vibrations or shaft deflections that typically occur at the first signs of impeller imbalance. As a result, SKF recommends using a CARB bearing on the wet end of a shaft.

Key benefits include:Accommodate thermal expansion of the shaft within the bearing, to virtually elimi-nate the problems caused by induced axial loads

Tolerate shaft misalignment to reduce edge loadingTight fit on the inner and outer rings prevent fretting corrosion and limit shaft vibrations

3 Adapter sleeves/ hydraulic nuts Mounting and dismounting a bearing on a tapered shaft is a precise and time-con-suming task. Done incorrectly, internal clearance will be either too small or too large, and the bearing will fail prematurely. To install bearings in heavy-duty slurry pumps accurately and easily every time, the SKF drive-up method is recommended. This method uses a hydraulic nut, a hydraulic pump, adapter sleeves, lock nuts and locking devices that were specially designed to maximize bearing service life.

EA Technical data sheet CS2 v03 | 2006-05-25 2 M – Master

Page 165: Anti Friction Bearings for Pumps