complete edm handbook
TRANSCRIPT
-
7/26/2019 Complete EDM Handbook
1/174
5
About the Authors
The father and son team, Carl, Steve, and Phil Sommer, own and operate
Reliable EDM in Houston, Texas. They specialize in all types of EDM(electrical discharge machining) wire EDM, ram EDM (also known as
plunge, and sinker EDM), and small hole EDM. They are the largest wire
EDM job shop west of the Mississippi River.
Carl Sommer, president, has witnessed firsthand the dramatic changes
in the machining field. In 1949, he started working in a machine shop in
Brooklyn, NY. It was not long before Carl began working as an apprentice
tool and die maker where he learned to make dies with hand files and
filing machine. Then he found a job in precision tool and die shop. The
owner of the precision tool and die shop sold it, and in the new company
Carl gained broad and valuable experience in virtually all areas of
the machining fieldprecision tools and dies, fixtures, and short run
production from such companies as IBM, Gyrodyne, Thikol, FairchildStratus, Remington, and Sikorsky Helicopter. He operated all machines,
worked in the inspection department, and made precision dies where
parts were ground to within .0001 (.0025 mm). (That's less than 1/20th the
thickness of a human hair.) Then Carl became a foreman for a tool and die
and stamping company.
Carl decided to become a New York City high school teacher. So for
most of the 1970s, he worked as a New York City high school teacher in the
industrial arts department. During this time he also conducted extensive
Reliable EDMSpecializes in wire EDM, ram EDM, and small hole EDM
-
7/26/2019 Complete EDM Handbook
2/174
6Complete EDM Handbook
Compliments of www.ReliableEDM.com
research into the problems facing Americas educational institutions. This
research, as well as proposed solutions, culminated in the writing the book,
Schools in Crisis: Training for Success Or Failure?
Carl moved to Houston, Texas in 1978. The pay was so poor for teachers,
that he re-entered the machine tool industryfirst as a tool and diemaker, then as a tool designer for one of Houstons largest tool and die
and stamping shops. After six months Carl advanced to the position of
operations manager, and for 5 1/2 years managed the entire company. At
this shop the stamping dies were milled or ground. When the company
purchased a wire EDM machine, it revolutionized their tool and die
making. Now the most difficult shapes could be machined accurately into
hardened tool steel.
In 1986, Sommer started Reliable EDM with his two sons. One of the major
needs he saw was that individuals needed to be educated concerning thebenefits of wire EDM, so he sent information to companies describing the
process and the capabilities of wire EDM. Within four years, they became
the largest wire EDM job shop in Texas; within nine years, they became the
largest wire EDM job shop west of the Mississippi River.
In the beginning Carl operated the EDM equipment, and with his
machining background built all sorts of fixtures for the EDM shop. With
his company being profitable, Carl began to follow his dreams of writing
One of Reliable's Wire EDM Departments
-
7/26/2019 Complete EDM Handbook
3/174
7About the Authors
children's books that would teach children the principles on how they
can become successful. He has written 20 children's books that have won
numerous awards. He is also writing three large literacy programs, Reading
Success, a phonics literature-based reading program for adults, Reading
Adventure, a phonics literature-base reading program for children, andNumber Success, a practical math program from addition to trigonometry
(this math program will be on 47 DVDs). For more information go to www.
advancepublishing.com.
Steve Sommer M.E., vice president, received his mechanical engineering
degree from the University of Houston. When Steve graduated from
college, the oil crisis hit Houston and he couldn't find a job as an engineer.
While going to school he worked as a machinist, so with his machinist
background he found a job working as a tool and die maker. While working
as a tool and die maker, he was asked to run the EDM department. His
experience in engineering, machining, tool and die making, and EDMing
continues to be a valuable asset for Reliable EDM. Steve has a thorough
knowledge of the machining trade, computer programming, and the EDM
process. He has worked over 20 years in programming and operating EDM
equipment.
Phil Sommer, vice president of operations, has a degree in business
administration and heads the EDM operations. He also has extensive EDM
experience. Phil has years of experience in running an EDM shop and
dealing with customers.
The family team built their business on following the
Golden Rule of doing to others what one would like
being done to them. Following the Golden Rule and the
exceptional experiences of this father-and-son team are
the major reasons for Reliables remarkable growth and
success. With their machining background, they have
modified EDM machines where they can cut parts 36" (914
mm) tall, and wire EDM a single-hole cavity in tubes up to22" (559 mm) deep. They do all kinds of work for aerospace,
defense, petroleum, plastics, electronics, medical and many
other industries.
Since their company uses all the EDM equipment discussed
in this book, Carl and Steve are uniquely qualified to write
The Complete EDM Handbook. In regard to the first book Carl
and Steve wrote, Wire EDM Handbook, Jack Sebzda, editor in
chief of EDM Today, stated:Wire EDMing to 36" Tall
Illustration: 3 1/4" Keyway EDMed 33"
-
7/26/2019 Complete EDM Handbook
4/174
Complete EDM HandbookCompliments of www.ReliableEDM.com
FINALLY...A comprehensive, professionally written book, all
about Wire EDM is available to the EDM community!...
The 'Wire EDM Handbook' puts a wealth of practical, to-the-point
information at your fingertips. Written for people at every level of
EDM experience, this professional, hard cover book, belongs inevery EDM shop." (EDM Today has repeatedly advertised and sold
this book for many years."
Wire EDM Handbookwent through four editions and has been used as
a textbook in US colleges and technical schools. When this book was first
published, an EDM salesperson who travelled to Germany told Carl that
there was a book in Germany on wire EDM, but our book "makes money."
This was a high compliment. Our aim in writing The Complete EDM
Handbookis to provide practical advice for all the EDM processes. We haveseen many articles with all sorts of technical information that we in the
shop would never use. We have avoided this in writing this book.
There is information in this book that can literally save companies
thousands of dollars. Since Carl has worked as a tool and die maker,
tool designer, and operations manager of a large tool and die shop, his
information alone in chapters 7 and 8 can save companies tens of thousands
of dollars if implemented. Throughout this book there's much practical
advice for everyone.
For more information, feel free to contact them.
Reliable EDM
6940 Fulton St.
Houston, TX 77022
800-WIRE EDM (800-947-3336)
Tel. 713-692-5454
Fax 713-692-2466
Web site: www.ReliableEdm.com
E-mail Phil or [email protected]
8
-
7/26/2019 Complete EDM Handbook
5/174
19
Understanding ElectricalDischarge Machining
lectrical Discharge Machining
No longer is EDM a "non-conventional" machining method. It is claimed that
EDM is now the fourth most popular machining method. The first three are milling,
turning, and grinding. One of the major reasons for the turnaround is today's EDM
machines have dramatically increased their cutting speeds.
n todays highly competitive world, it is essential to
understand the electrical discharge machining (EDM)
processes. Every manufacturer needs to learn and understand
the many advantages of EDM. We will be examining thethree basic EDM processes: wire EDM, ram EDM, and small
hole EDM drilling. See Figure 1:1.
Figure 1:1
The Three EDM Processes
1
Wire EDM
Courtesy Mitsubishi
Courtesy Agie
Ram EDM Small Hole EDM Drilling
Courtesy Charmilles
-
7/26/2019 Complete EDM Handbook
6/174
omplete EDM Handbookomp iments o www.Re ia eEDM.com
Various Electric Discharge Machines
he three electric discharge machining methods, wire, ram, and small hole EDM,
all work on the principle of spark erosion. As the name indicates, material is eroded
from the workpiece by means of electrical discharges that create sparks.
A. Wire EDM
n wire EDM, the spark jumps from the wire electrode to the workpiece and
erodes metal both from the wire electrode and the workpiece. Wire EDM is used
primarily for through hole machining as shown in Figure 1:2.
. Ram EDM
am EDM, also known as conventional EDM, sinker EDM, die sinker, vertical
EDM, and plunge EDM is generally used to produce blind cavities as shown in
Figure 1:3. In ram EDM sparks jump from the electrode to the workpiece. This
causes material to be removed from the workpiece.
Figure 1:3
am EDMRam EDM is used rimaril for blind hole machinin .
Electrode
Work piece
Figure 1:2
Wire EDM
Wire EDM is used primarily for through hole machining.
-
7/26/2019 Complete EDM Handbook
7/174
21Un erstan ing E ectrica Disc arge Mac ining
C. Small Hole EDM Drilling
Small hole EDM drilling, also known as fast hole EDM drilling, hole popper,
and start hole EDM drilling, uses a hollow electrode to drill holes by means of
lectrical discharge machining by eroding material from the workpiece as shownn Figure 1:4.
Materials That Can Be EDMed
Any material that conducts electricity can be EDMed, either hard or soft. See
igure 1:5 for some of the materials that can be EDMed.
Figure 1:5
ome of the materials that can be EDMed.
Figure 1:4
mall Hole EDM Machining
mall Hole EDM is primarily used for drilling holes.
iece
nconel Aluminum Vasconal 300
ool Steels: 01, A2, D2, S7 Aluminum Bronze PCD Diamond
arbide Copper Nitronic
erro-Tic Brass Beryllium Copper
PM 10V Cold Roll Steel Hastalloy
130 Hot Rolled Steel Stellite
raphite Stainless Steels Titanium
-
7/26/2019 Complete EDM Handbook
8/174
omplete EDM Handbookomp iments o www.Re ia eEDM.com
Keeping Abreast With EDM Technology
n the early '70s a typical wire EDM machine cut two square inches an hour,
today they are rated to cut over 20 times faster and producing sub-micron finishes.
For many applications, from tool and die making, medical tools, dental instruments,
oil field production, and to space applications, wire EDM is an extremely cost-
effective machining operation.
he purpose of this book is to educate engineers, designers, tool and die
makers, mold makers, business owners, and those making machining decisions to
understand and to be able to use the electrical discharge machining methods, and
thus make their companies more profitable.
s a tool and die maker, Carl saw the great advantages of wire EDM for his
trade. Carl's surprise after opening his EDM company was the many production
jobs they received from machine shops that had NC equipment. These machine
shops discovered that it was more cost effective to have work wire EDMed than to
do it on their own NC equipment. Figure 1:6 shows some of the production work
done at Reliable EDM.
Figure 1:6
ire EDM Replacing Conventional and NC Machining
-
7/26/2019 Complete EDM Handbook
9/174
23Un erstan ing E ectrica Disc arge Mac ining
The Machining Revolution
The early EDM machines, particularly ram EDM, were simple; but with the
advent of the CAD/CAM (computer aided design/computer aided machining),
another revolution came. Computerized programs could be downloaded into a
achine and the operation proceed automatically. The use of these machines
ramatically increased productivity. With the addition of high speed computers,
hese machines achieved faster processing times.
Then fuzzy logic was introduced, both for wire EDM and ram EDM. Unlike
bilevel logic, which states that a statement is either true or false, fuzzy logic allows
a statement to be partially true or false. Machines equipped with fuzzy logic
think and respond quickly to minute variances in machining conditions. They
an then lower or increase power settings according to signals received.
Some EDM machines come equipped with linear drives instead of rotary drives
ith a motor and ball screws. A motor and ball screw must take rotary action and
onvert it to linear motion. Linear motors or flat motors move in a straight motion
so no conversion is required. See Figure 1:7.
ther innovations include automatic tool changers, robots, workpiece and pallet
hangers, high-speed finishing, and artificial intelligence that enables machines to
perform many complex machining sequences.
Courtesy Sodick
Figure 1:7
Rotary and Linear Drives
-
7/26/2019 Complete EDM Handbook
10/174
24omplete EDM Handbook
omp iments o www.Re ia eEDM.com
Understanding Accuracy
ne of the amazing features of the EDM process is the speed and accuracy that
can be maintained. In a later chapter we will go into further detail about accuracy,
but now we would like to make sure everyone understands accuracy. One of the
biggest difficulties in the machining trade is determining required part accuracies.
Certain jobs require extremely close tolerances; but excessively close tolerances
are often unnecessary and add substantial costs to the machining processes.
Understanding tolerances is an important asset in reducing machining costs.
o better understand the accuracy, some EDM machines can cut to +/- .0001"
(.0025 mm) and closer. The thickness of a human hair is slightly over .002 (.051
mm), these machines can cut to one-tenth the thickness of a human hair.
any manufacturers misunderstand close tolerance measurements. They put on
prints +/- .0005" (.0127 mm) whether the size is 2 inches (51 mm) or 10 inches
(254 mm). In the early days of our EDM experience, we received a wire EDM job
that required +/- .0005" (.0127 mm) for holes about 15 inches (381 mm) apart. Now
close tolerances require numerous skim cutting and are costly. However, when I
went and visited their inspection department, they were measuring the parts with a
veneer caliper!
he coefficient of expansion of steel is 6.3 millionths (.0000063) per inch
(.00016 mm) per degree F. (.56 C). If the temperature of a 10 inch (254 mm) piece
of steel rises only 10 degrees F. (5.6 C.), it will expand .00063 (.016 mm). If a 10
inch part was machined precisely on size with a +/- .0005" (.0127 mm), it would
be out of tolerance just from the ten degrees of heat applied by handling the steel
through heat expansion. See Figure 1:8.
10" (254 mm)
Steel
ncreasing the
emperature 10 F
xpands the steel
plate .00063.
igure 1:8
Understanding Heat Expansion
-
7/26/2019 Complete EDM Handbook
11/174
25Un erstan ing E ectrica Disc arge Mac ining
Automation and EDM
Here is an example where one can use their imagination to become more
ompetitiveuse automatic production cells. Today robots are available that can
eed various machines, such as a milling machine, wire EDM, and a ram EDM.With such machine production as shown in Figure 1:9, machines can run 24 hours
seven days a week.
Due to the rapid advances of technology, many traditional ways of todays
achining are performed with the EDM process. Manufacturers are realizing
ramatic results in achieving excellent finishes, high accuracies, cost reductions,
and much shorter delivery times.
ourtesy Systems 3R
Figure 1:9
obot Feeding Three MachinesMilling Machine, Ram EDM Machine,
nd Wire EDM Machine
-
7/26/2019 Complete EDM Handbook
12/174
omplete EDM Handbookomp iments o www.Re ia eEDM.com
American Economy and Globalization
We live in a global economy, and America is losing many manufacturing jobs
to factories overseas. A way to keep America from losing jobs is to make our
factories more competitive by being more efficient, and EDM lends itself to be a
very productive machining method.
t Reliable EDM we have built our business on following the Golden Rule
which states: "Do to others what you would want them to do to you." As business
owners we put ourselves in our customers shoes and asked, "What would customers
want us to do?" We believe there are three basic customer desires:
1. They want quality products.
. They want good service.
3. They want good value.
y following these three principles we have become the largest wire EDM
job shop west of the Mississippi River. Because we want to keep our prices low,
we built all sorts of fixtures and try to maintain maximum productivity with our
machines.
We hope those reading this handbook, whether business leaders, employees,
or students, will ask themselves this question, "What can I do to help keep jobs
in America?" One of the things we can all do is to try to make our nation more
productive. We need everyone to think and explore ways on how to make their
companies and machines more efficient so we can keep as many jobs here as
possible.
DM is an excellent method for increasing productivity. Let's examine in the
next chapter the revolutionary machine that has already dramatically increased
productivitywire EDM.
-
7/26/2019 Complete EDM Handbook
13/174
29
Wire EDM Fundamentals
Revolutionizing Machining
Wire Electrical Discharge Machining (EDM) is one of the greatest innovations
affecting the tooling and machining industry. This process has brought to industry
ramatic improvements in accuracy, quality, productivity, and earnings. Figure 2:1
shows various wire EDM machines.
Courtesy Makino
Courtesy Mitsubishi
ourtesy o c
igure 2:1
ire Electrical Dischar e Machines
-
7/26/2019 Complete EDM Handbook
14/174
30Complete EDM Handbook
Compliments of www.ReliableEDM.com
efore wire EDM, costly processes were often used to produce finished parts.
Now with the aid of a computer and wire EDM machines, extremely complicated
shapes can be cut automatically, precisely, and economically, even in materials as
hard as carbide. See Figure 2:2.
Wire EDM Beginnings
n 1969, the Swiss firm Agie produced the worlds first wire EDM machine.
Typically, these first machines in the early 70s were extremely slow, cutting
about 2 square inches an hour (21 mm /min.). Their speeds went up in the early
80s to 6 square inches an hour (64 mm2/min.). Today, machines are equipped
with automatic wire threading and can cut over 20 times faster than the beginning
machines. A remarkable turnaround.
Figure 2:2
Wire Electrical Discharge Machining
Traveling
Wire ElectrodeWorkpiece
otions
Wire
Motions dWire EDM Use
ughPrimarily for Thro
ole Machinin
-
7/26/2019 Complete EDM Handbook
15/174
Wire EDM Fun amenta s 31
Production Wire EDM
Whether cutting soft aluminum, hot rolled steel, super alloys, or tungsten
arbide, manufacturers are discovering it is less expensive and they receive higher
uality with todays high-speed wire EDM machines for many production parts.
See Figure 2: 3.
Figure 2:3
arious Wire EDM Production Jobs
Wire EDMing Internal Keyways
-
7/26/2019 Complete EDM Handbook
16/174
32Complete EDM Handbook
Com liments of www.ReliableEDM.com
Capabilities of Wire EDM
Some machines cut to accuracies of up to +/- .0001" (.0025 mm), producing
surface finishes to .037 Ra m and lower. At our company we can cut parts weighing
up to 10,000 pounds. See Figure 2: 4 and 5 for some large and heavy parts.
Wire EDM a Serious Contender With Conventional Machining
oday, wire EDM competes seriously with such conventional machining as
milling, broaching, grinding, and short-run stamping. Conventional wisdom
suggests that wire EDM is only competitive when dealing with expensive and
difficult-to-machine parts. But this is not the case. Wire EDM is often used with
simple shapes and easily machined materials. Our company receives much work
that could be machined by conventional methods. Although many of the customers
have conventional CNC machines, they send their work to us to be EDMed.
Figure 2:4
Wire EDM Machine Capable of Cutting Parts Up To 10,000 Pounds
Test Specimen Cut From a Turbine Measuring 7 Feet in Diameter
Figure 2:5
Large gate valve wire EDMed from a large block of steelruler is 24 inches (610 mm)
-
7/26/2019 Complete EDM Handbook
17/174
Wire EDM Fun amenta s 33
A large wire EDM company reports that production runs up to 30,000 pieces
ake 65% of their cutting time. One particular job of theirs would have required
ine blank tooling and a 10 to 12-week wait, but EDM was able to finish the
ardened, .062" (1.57 mm) thick stainless steel parts burr-free and on time for their
production schedule.
New Demands by Design Engineers
As more design engineers discover the many advantages of wire EDM, they are
ncorporating new designs into their drawings. It therefore becomes important for
ontract shops to understand wire EDM so they can properly quote on these new
esigns requiring EDM.
Increasingly, todays drawings are calling for tighter tolerances and shapes that
an be only efficiently machined with wire EDM. See Figure 2:6.
An added benefit of wire EDM is that exotic alloys can be machined just as
asily as mild steel. When wire EDM manufacturers select the optimum steel to
emonstrate the capability of their machines, their choice is not mild steel, but
ardened D2, a high-chrome, high-carbon tool steel.
Figure 2:6
Various Shapes Cut With Wire EDM
-
7/26/2019 Complete EDM Handbook
18/174
34Complete EDM Handbook
Compliments of www.ReliableEDM.com
Whether cutting with nozzles away from the workpiece as in Figures 2:7 and 2:8,
or with nozzles on the workpiece, wire EDM has proven to be one of the greatest
machining revolutions.
Fully Automated Wire EDMs
or total unattended operation, some wire EDM machines are equipped with
automatic wire threading and robotized palletization. These machines are well
equipped to do high production runs.
Figure 2:8
Cavities required to be cut in the air.
6
(255 mm)
Figure 2:7
Cutting with nozzles away from the workpiece
-
7/26/2019 Complete EDM Handbook
19/174
Wire EDM Fun amenta s 35
ne company making standard and made-to-order punch and die sets for turret
punch presses uses ten wire EDM machines fed by a robot. The robot moves
n a track between the two rows of wire EDM machines. After the parts are
DMed, a non-contact video inspection system, interfaced with a computer system
automatically examines the work.eneral Electric uses 36 wire EDM machines to cut steam turbine bucket roots.
reviously, GE used as many as 27 different operations, many of them milling; now
t can cut the entire bucket periphery in one pass. Prior delivery with conventional
ethods required 12 weeks; wire EDM reduced the delivery to 2-4 weeks.
How Wire EDM Works
Wire EDM uses a traveling wire electrode that passes through the work piece.
he wire is monitored precisely by a computer-numerically controlled (CNC)
system. See Figure 2:9.
Like any other machining tool, wire EDM removes material; but wire EDM
removes material with electricity by means of spark erosion. Therefore, material
hat must be EDMed must be electrically conductive.
Rapid DC electrical pulses are generated between the wire electrode and the
orkpiece. Between the wire and the workpiece is a shield of deionized water,
alled the dielectric. Pure water is an insulator, but tap water usually contains
inerals that causes the water to be too conductive for wire EDM. To control
he water conductivity, the water goes through a resin tank to remove much of
ts conductive elementsthis is called deionized water. As the machine cuts, the
onductivity of the water tends to rise, and a pump automatically forces the water
hrough a resin tank when the conductivity of the water is too high.
Figure 2:9Wire EDM
The wire EDM process uses a wire electrode monitored by a CNC system to remove material.
Traveling Wire EDM
Workpiece
-
7/26/2019 Complete EDM Handbook
20/174
36Complete EDM Handbook
Compliments of www.ReliableEDM.com
When sufficient voltage is applied, the fluid ionizes. Then a controlled spark
precisely erodes a small section of the workpiece, causing it to melt and vaporize.
These electrical pulses are repeated thousands of times per second. The pressurized
cooling fluid, the dielectric, cools the vaporized metal and forces the resolidified
eroded particles from the gap.he dielectric fluid goes through a filter which removes the suspended solids.
Resin removes dissolved particles; filters remove suspended particles. To maintain
machine and part accuracy, the dielectric fluid flows through a chiller to keep the
liquid at a constant temperature. See Figure 2:10.
DC or AC servo system maintains a gap from .002 to .003" (.051 to .076 mm)between the wire electrode and the workpiece. The servo mechanism prevents the
wire electrode from shorting out against the workpiece and advances the machine
as it cuts the desired shape. Because the wire never touches the workpiece, wire
EDM is a stress-free cutting operation.
he wire electrode is usually a spool of brass, or brass and zinc wire from .001
to .014" (.025 to .357 mm) thick. Sometimes molybdenum or tungsten wire is used.
New wire is constantly fed into the gap; this accounts for the extreme accuracy and
repeatability of wire EDM.
Figure 2:10
How Wire EDM Works
recisely controlled sparks erode the metal using deionized water.
Pressurized water removes the eroded material.
Path of Wire Electrode generated by
CNC Automated Computer System
Gauge of wire ranges from
.001 to .014" (.025 to .357 mm)
Pressurized
Dielectric Fluid
aterial removed is cooled
by the dielectric fluid
Spark erosion causes the
material to be eroded
Wire Electrode never contacts
the workpiece
-
7/26/2019 Complete EDM Handbook
21/174
Wire EDM Fun amenta s 37
The Step by Step EDM Process
See Figures 2:11-14
A. Power Supply Generates Volts and Amps
B. During On Time Controlled Spark Erodes Material
igure 2:11
Deionized water surrounds the wire electrode as the power supply
enerates volts and amps to produce the spark.
igure 2:12
parks precisely melt and vaporize the material.
Wire Electrode
Workpiece
Voltage and Amperage control the
spark between the wire electrode
and workpiece.
EDM
Power
Supply
Deionized dielectric fluid
surrounds wire electrodeand workpiece
Wire Electrode
Workpiece
Dielectric FluidDielectric fluid acts as a resistor
until enough voltage is applied.
Then the fluid ionizes andsparks occur between the wire
electrode and the workpiece.
Sparks precisely melt and
vaporize the material.
-
7/26/2019 Complete EDM Handbook
22/174
38Complete EDM Handbook
Compliments of www.ReliableEDM.com
C. Off Time Allows Fluid to Remove Eroded Particles
. Filter Removes Chips While the Cycle is Repeated
Wire Electrode
Dielectric Fluid
Workpiece
Once the sparking process
is complete, the workpiece
material is cooled by the
pressurized dielectric fluid
and the eroded particles are
flushed out.
Wire Electrode
Workpiece
The melted workpiece
material forms into EDM
chips. A filter then removes
the chips and the dielectric
fluid is reused.
igure 2:13
During the off cycle, the pressurized dielectric fluid immediatelycools the material and flushes the eroded particles.
igure 2:14
he eroded particles are removed and separated by a filter system.
-
7/26/2019 Complete EDM Handbook
23/174
Wire EDM Fun amenta s 39
Super Precision Band Saw
To better understand the wire EDM process, visualize the wire EDM machine as
a super precision band saw with accuracies to +/-.0001 " (.0025 mm). See Figure
:15
Escaping
Dielectric
Fluid
Pressurized, filtered, and cooled
dielectric fluid
U
D
G
p
L
igure 2:15
super precision band saw capable of cutting hardened material to +/- .0001 .0025 mm .
-
7/26/2019 Complete EDM Handbook
24/174
40Complete EDM Handbook
Compliments of www.ReliableEDM.com
Independent Four Axis
ndependent four axis wire EDM machines allow the machines to cut a top
profile different from the bottom profile. See Figure 2:16. This is particularly useful
for extrusion molds and flow valves.
arts as shown in Figure 2:17 were produced with independent four axis wire
EDM.
Figure 2:16
Independent Four Axis
ifferent shapes can be produced on top and bottom of a workpiece.
View AA
Figure 2:17
Independent Four Axis Parts
-
7/26/2019 Complete EDM Handbook
25/174
Wire EDM Fun amenta s 41
A computer image of the numbers one and two combined into a single piece is
shown in Figure 2:18. (See the second image on the left on the previous page in
igure 2:17 for the EDMed number one and two.)
A picture of the Statue of Liberty combined with a cross is shown in Figure 2:19,
and the computer image in Figure 2:20. (To remove the Statue of Liberty and the
ross, various cuts had to be made in the scrap portion.)
Figure 2:18
rogrammed Number One and Number Two.
igure 2:19
tatue of Liberty and Cross
igure 2:20
Computer Image of the Statue of Liberty and Cross.
-
7/26/2019 Complete EDM Handbook
26/174
42Complete EDM Handbook
Compliments of www.ReliableEDM.com
Understanding Independent Four Axis
anufacturers have discovered unique ways of using the capabilities of the
independent four axis: extrusion molds, flow openings, injection molds, and many
other complex shapes.
o better understand independent four axis, a person can hold a string and move
the top and bottom of the string independently. Virtually any conceivable shape can
be created within the confines of the travel of the U and V axes of the wire EDM
machines. Machines are capable of cutting tall parts with independent angles up to
45 degrees. See Figure 2:21.
ourtesy Charmilles
Figure 2:21
Wire EDM Machines are Capable of Cutting 45 Angles.
-
7/26/2019 Complete EDM Handbook
27/174
Wire EDM Fun amenta s 43
Submersible Cutting
In submersible cutting a tank surrounds the work area and the tank is filled with
eionized water before the cutting takes place. In a dry machine, water needs to
low from the nozzles to surround the wire with deionized water.
Submersible cutting is a great aid in starting a cut and when skim cutting because
he wire is always submersed in water as shown in Figure 2:22. Dry machines can
also do skim cutting, but one needs to be careful of always maintaining water
around the wire, otherwise the wire will break. As shown in Figure 2:23, our
ompany cut this 18 (457 mm) show piece submersed.
Figure 2:23
how Piece Cut Submersed18 457 mm
Figure 2:22
A Submersible Wire EDM
Courtesy Mitsubishi
-
7/26/2019 Complete EDM Handbook
28/174
44Complete EDM Handbook
Compliments of www.ReliableEDM.com
Staying Competitive
o remain successful, companies need to keep informed of the newest
technologies in order to remain competitive. Understanding the many changes in
the EDM processes is important for those in manufacturing.
ngineering and trade schools should be concerned that their graduating students
are properly equipped to enter the workforce knowing the latest technologies. This
book aims to encourage and educate upcoming engineers, toolmakers, and those in
management to understand and be able to use the EDM processes profitably.
n 1981, someone proved mathematically that wire EDM could not achieve
speeds over 4 sq. in. (43 mm/min.) per hour. Those who experienced wire EDM in
the early 80s may have decided that this process was inefficient and costly. Times
have changed EDM dramatically.
he first wire EDM machines had heights between 2 to 4 inches (51 mm to 102
mm). Through the years the cutting heights of EDM machines have increased. A
customer came to Reliable EDM with a tall part and was told we couldn't cut the
part because of the height limitations of our machines. Carl Sommer happened to
pass by as the customer was told they could not cut the part. Since Carl has years
of machining experience and has worked on building machines, he thought they
could modify a machine to cut the part. Today, they can EDM parts weighing up to
10,000 pounds and workpieces up to 36 inches (915 mm) tall. Illustrated in Figure
2:24 are some tall parts our company has EDMed. The moral of the storylet your
imagination run loose.
We have examined the fundamentals of wire EDM, let us examine some of the
many ways one can profit with this revolutionary machining process.
Figure 2:24
Various Tall Parts EDMed
e have modified a wire EDM machine to cut parts up to 36" (914 mm) tall.
-
7/26/2019 Complete EDM Handbook
29/174
45
Profiting With Wire EDMUsers of Wire EDM
Parts made with the wire EDM process are used for machining conductive
aterials for medicine, chemical, electronics, oil and gas, die and mold, fabrication,
onstruction, automotive, aeronautics, spacevirtually any place where electrically
onductive materials are utilized.
Benefits Of Wire EDM
A. Production Runs
Because of the new generation of high-speed wire EDM machines, manufacturersncreasingly are discovering that wire EDM produces many parts more economically
han conventional machining. See Figure 3:1 and 2. An additional benefit with wire
DM is that close tolerances can be held without additional cost and without burrs.
Figure 3:1
Production EDMTodays high speed wire EDM machines can produce
many parts more economically and burr-free than with conventional machining.
igure 3:2
Titanium Parts for Oil Exploration
3
-
7/26/2019 Complete EDM Handbook
30/174
46omplete EDM Handbook
omp iments o www.Re ia eEDM.com
. Various Shapes and Sizes
With this new technology, any contour (Figure
3:3) and varying tapers can be machined precisely.
Extremely thin sections can be made because the
wire electrode never contacts the material being cut.EDM is a non-contact, force-free, metal-removing
process which eliminates cutting stress and resultant
mechanical distortion.
C. Accuracy and Finishes
he wire path is controlled by a CNC computer-generated program with part
accuracies up to +/- .0001 (.0025 mm), and some machines achieve surface
finishes well below .037 Ra m. Dowel holes can be produced with wire EDM to
be either press or slip fit. See Figure 3:4 where precision cams were EDMed.
. Eliminates Extra Machining Processes
he extremely fine finish from the standard wire EDM process often eliminates
the need for grinding or other finishing procedures. When using wire EDM, one
should not hesitate to add small radii to eliminate a secondary operation, such as
deburring of edges (Figure 3:5). The cost is unaffected by adding radii.
Figure 3:3
Infinite Shapes and Sizes
Figure 3:5
Eliminates Extra Machining Process
ll internal
nd external
radii .020
Figure 3:4
recision Cams Cut From Stainless Steel Sheets
-
7/26/2019 Complete EDM Handbook
31/174
rofiting with Wire EDM 47
E. Burr Free and Perfectly Straight Machining
Stamped materials have rollover edges and tapers. Wire cut materials are totally
burr free, smooth and straight. See Figure 3:6.
. Damaged Parts Can Be Repaired with Inserts
EDM allows a damaged die, mold, or machine part to be repaired with an insert
rather than requiring the part to be remade. An insert can be EDMed and held
ith a screw, or a tapered insert can be produced so that it can be forced to fit. See
xamples in Figures 3:7 and 3:8.
Figure 3:6
ire EDM Parts are Straight and Burr Free
Figure 3:7
Damaged Die Repaired With InsertDovetail can be pressed fit or held with a screw
Rollover
Burnished
Land
Fracture
urr
Finish From
Stamping
Dovetail Insert
inish From
Wire EDM
Straight
Land
-
7/26/2019 Complete EDM Handbook
32/174
48omplete EDM Handbook
omp iments o www.Re ia eEDM.com
G. Less Need for Skilled Craftspersons
ecause wire EDM often eliminates extreme precision and time consuming
machining processes, it reduces the need for skilled craftspersons. This frees suchprofessionals for more productive and profitable work.
. Material Hardness Not a Factor
Wire EDMs cutting ability is unaffected by workpiece hardness. In fact, it cuts
hardened D2 faster than cold roll steel. The advantage of cutting materials in the
hardened state is that it eliminates the risk of distortion created when the material
needs to be heat treated.
DM introduces minimal heat into the material, and the small amount of heat
that is generated is quickly removed by the dielectric fluid. At our company wehave EDMed hundreds of hardened stamping dies from various tool steels with no
negative results.
. Computers Can Perform Calculations
Since computers program the path for wire EDM, usually only basic math
dimensions are needed. Also when exact chord positions on blending radii are
required, computer programs can automatically calculate the blending points. See
Figure 3:9
igure 3:8
epairing a Damaged Hardened Hole
Damaged Hole Wire EDM the Hole Fit the New InsertPress
seWire Cut In t
-
7/26/2019 Complete EDM Handbook
33/174
rofiting with Wire EDM 49
J. Digitizing is Possible
It is not always necessary to have exact dimensions of a drawing or of a part. By
eans of digitizing as illustrated in Figure 3:10, a program can be made directly
rom a drawing or from a previous-produced part.
Figure 3:9
Computers are used to program the wire EDM path
igure 3:10
Example of a Digitized Drawing
-
7/26/2019 Complete EDM Handbook
34/174
50omplete EDM Handbook
omp iments o www.Re ia eEDM.com
. Miniaturization of Parts
Wire EDM can machine thin webs with extreme precision, and close inside and
outside radii with very fine micro finishes (Figure 3:11). Some machines can cut
with wire as thin as .0008(.020 mm) wire.
. Machining With Nozzles Away from Workpiece
arts can be EDMed, as shown in Figure 3:12, even when flush nozzles are not
directly against the workpiece. This is a slower cutting process due to less water
pressure in the cut, but for many jobs it is still economical.
Figure 3:12
Keyway can be EDMed even though flush ports do not contact the part.
Figure 3:11MiniaturizationWire EDM can produce very thin webs and miniature parts.
.007 (.18 mm) Typical
Key Slot EDMed
Courtesy Sodick
-
7/26/2019 Complete EDM Handbook
35/174
rofiting with Wire EDM
M. Reliable Repeatability
The reliability of wire EDM is one of its great advantages. Because programs
are computer generated and the wire electrode is being fed constantly from a spool
and used only once, the last part is identical to the first one. The cutter wear of
onventional machining does not exist with wire EDM. Because of this, tighter
achining tolerances can be maintained without additional costs.
Parts for Wire EDM
A. Precision Gauges and Templates
omputer generated programs for wire EDM are used rather than costly grinding
procedures to produce precision gauges and templates as in shown in Figure 3:13
and 14. Since gauges and templates are often thin, making two or more at the sameime adds little to the cost of their production.
Figure 3:13
recision Gauges and Templates
Thread Gauges emplates
Figure 3:14
hort-Run Production of Multiple Gauges
-
7/26/2019 Complete EDM Handbook
36/174
52omplete EDM Handbook
omp iments o www.Re ia eEDM.com
. Keyways vs. Broaching
Wire EDM easily cuts precision keyways as shown in Figure 3:15. It also
produces hexes, splines, and other shapes, without the need to make special
broaches, even from the material in the hardened state.
C. Shaft Slots
ather than make a costly setup to machine a slot in a shaft, a simple setup can
be made on a wire EDM machine. In addition to saving time, EDM produces no
burrs in the threaded area. See Figure 3:16.
. Collets
onventional machining often distorts collets. If the collets are heat treated
after machining, they often distort even more. In contrast, wire EDM can machine
collets in the hardened condition and without any cutting pressure, as shown in
Figure 3:17
Figure 3:15
Precision Keyways
Figure 3:16
Burr-Free Slot in Threaded Area
Figure 3:17
Collets can be cut in the hardened condition without any cutting pressure.
Hole Wire EDMed for Strength
-
7/26/2019 Complete EDM Handbook
37/174
rofiting with Wire EDM
E. Parting Tubes and Shafts
Because of the small gap produced by wire EDMa .012 (.30 mm) wire produc-
s a .016(.41 mm) gap (thinner wires can also be used)tubes, shafts, and bearing
ages can be parted after machining is completed, as pictured in Figure 3:18.
. Shaft Pockets
Any shaped pocket which goes through a shaft can be machined with wire EDM.
See Figure 3:19.
G. Fabrication of Graphite Electrodes for Ram EDM
raphite electrodes for ram EDM can be machined with wire EDM. One of the
reat advantages for this is that wire EDM produces identical electrodes.
The cost of producing graphite electrodes is largely determined by the
utting speed of the wire. The cutting speed of various grades of graphites are
astly different. For example, the graphite Poco Angstrofine, EDM-AF5, cuts
early twice as fast as most of the other grades, EDM-1, EDM-3, EDM-100,
r EDM 200.
igure 3:18Splitting Tubes
Figure 3:19
Shaft Cutouts
Wire EDM Cut
-
7/26/2019 Complete EDM Handbook
38/174
54omplete EDM Handbook
omp iments o www.Re ia eEDM.com
. Punches and Dies From One Piece of Tool Steel
With wire EDM, dies no longer have to be made by the costly method of being
sectioned and precision-ground. Now the most elaborate contours can be made
from one solid piece of hardened tool steel as shown in Figure 3:20.
he one-piece tool steel results in a stronger, non-breathing die at a fraction ofthe cost of a sectioned die. Also, compound dies can be wire EDMed from one
piece of tool steel. For detailed instructions on EDMing and fabrication of these
low-cost, high-performance one-piece dies, see chapter 8 of this book.
. Progressive Stamping Dies
Wire EDM has dramatically altered progressive tool and die making as illustrated
in Figure 3:21. Now elaborate die sections can be precisely EDMed at a much
lower cost.
igure 3:20
ne Piece Punch and Die
unch
ie
igure 3:21
Punch and Die Wire EDMed
Courtesy Charmilles Technologies
-
7/26/2019 Complete EDM Handbook
39/174
rofiting with Wire EDM
J. Short-Run Stampings
Instead of expensive tooling being produced for short runs, precision parts can
be produced with wire EDM. See Figure 3:22. When alterations are needed, they
an be made at practically no cost; while alterations with hard tooling are usually
ostly. Wire EDM can also produce all sorts of special shapes and in varioushicknesses.
. o s
Elaborate extrusion molds, with or without taper can be produced economically.
See Figure 3:23.
L. Special and Production Tool Cutters
Wire EDM can produce special one-of-a-kind tooling with various tapers,
ncluding carbide. See Figure 3:24. When production tool cutters need to be made,
hey should all be the same to eliminate costly setups and checking procedures
hen changing cutters. Since wire EDM repeats accurately, this process produces
dentical production tool cutters.
Figure 3:23
Tapered Extrusion Mold
Figure 3:22
Stacked Material to Produce Intricate Parts for Short-Run Stampings
-
7/26/2019 Complete EDM Handbook
40/174
56omplete EDM Handbook
omp iments o www.Re ia eEDM.com
. Difficult-to-Machine Shapes
Wire EDM has dramatically reduced costs for many manufactured parts. Instead
of using costly setups and complicated machining procedures to produce parts,
wire EDM is often more cost effective. See Figure 3:25 for a difficult production
machining operation that could be produced more economically with wire EDM.
. Other Cost-Reducing Parts
any other parts can be also economically produced with wire EDM. Following
are some samples. See Figure 3:26-32.
Figure 3:25
Difficult-to-Machine Shapes
.250 .002
.250 .002 TYP
1.250 .002
.195 .002
.125 PINS
.500 .005
.150 .0025/81.000 .002
2.250 .005 MATERIAL 17-4 PH SS
Figure 3:24
pecial Carbide Form Tool
-
7/26/2019 Complete EDM Handbook
41/174
rofiting with Wire EDM
igure 3:27 Gears & Internal Splines
Figure 3:31 Various Shapes in Barsigure 3:30 Sectionalizing Parts
igure 3:26 Cams
Figure 3:28 Hexes igure 3:29 Special Shapes
Various Wire EDM Applications
-
7/26/2019 Complete EDM Handbook
42/174
58omplete EDM Handbook
omp iments o www.Re ia eEDM.com
Cutting Shim Stock Absolutely Burr Free
or most sheet metal parts, lasers are more cost efficient. However, when thin
materials need to be cut without many holes, wire EDM can be significantly
cheaper and produce an edge that is totally burr free. For example: 500 pieces
to be machined from .005 shim stock. With wire EDM the shim stock is cut and
sandwiched between two 1/4 inch (6.4 mm) steel plates, the total height of the
shims is 2.5 inches (63.5 mm). See Figure 3:32.
ultiple parts can be cut as shown in Figure 3:33.
Figure 3:32
EDMing Shim Stock Burr Free
igure 3:33
Cuttin Multi le Shims
Flathea crews .
-
7/26/2019 Complete EDM Handbook
43/174
rofiting with Wire EDM
Single Cavity Cut With Wire EDM Into One Side of a Tube
An oil field company needed two tapered cavities to be cut out of one side of a
ube. A wire EDM machine is like a precision band saw. Under normal conditions,
ne cannot cut single cavities with a wire EDM machine. However, our company
esigned a special fixture that enabled us to cut 22" deep (559 mm) into one side
f a tube. Illustrated in Figure 3:34 and 35, is a show piece that we cut with our
special fixture.
igure 3:35
Reliable EDM's Show Piece: Single Cavity Cut Into One Side of a Tube
Figure 3:34
Special Fixture Cutting a Cavity in One Side of a Tube
-
7/26/2019 Complete EDM Handbook
44/174
60omplete EDM Handbook
omp iments o www.Re ia eEDM.com
Horizontal Wire EDM
Wire EDM machines are available that instead of cutting vertically, cut
horizontally. One of the machines uses wire as small as .00078" (.02 mm). This
machine is capable of automatically threading wire through a .0019 " (.05 mm)
diameter hole. This type of a machine is used for micro-minature molds, gears,
fiber optics, motors, actuators, nozzles, and medical instruments. One of the big
advantages of horizontal wire EDM is it is better adapted for automation because
the slug can fall straight down and not interfere with cutting the next part. A sensor
on the machine indicates that the core has been removed.
Machining Costs
sually the machining costs are determined by the amount of square inches
of cutting, as illustrated in Figure 3:36. Other factors are type of material,
programming, set up time, and whether the flushing nozzles contact the part. Itshould be noted that thickness of materials can have a dramatic effect on cutting
speeds. When manufacturers quote their cutting speeds, they use their optimal
height, around 2 1/4" (57 mm). Taller pieces cut significantly slower.
his chapter has discussed various profitable uses of EDM. The next chapter will
examine the proper procedures for this process.
Figure 3:36
Determining Machining Costs
hickness x Linear Inches = Square Inches2 x 1/2 + 1/2 + 2 1/2 + 2 1/2 = 12 square inches
2-1/2 2
1/2
-
7/26/2019 Complete EDM Handbook
45/174
61
To gain the greatest benefits from wire EDM, specific procedures should be used
o maximize EDMs potential for reducing machining costs. In planning work, the
ire EDM machine can be visualized as a super precision band saw which can cut
any hard or soft electrical conductive material.
Starting Methods for Edges and Holes
hree Methods to Pick Up Dimensions.
If the outside edges are important, then a finished edge should be indicated when
setting up the part to be wire EDMed.
A. Pick Up Two Edges as in Figure 4:1.
B. Pick Up a Hole as in Figure 4:2.
Pick Up a Hole
Figure 4:1
Pick Up Two Edges
X0
Y0
X0
Y0
Proper Procedures forWire EDM
4
-
7/26/2019 Complete EDM Handbook
46/174
62omplete EDM Handbook
omp iments o www.Re ia eEDM.com
C. Pick Up an Edge and Holes or Two Holes as in Figure 4:3
y using an edge and two holes, a part can be EDMed which is much larger than
the capacity of the machine. The part is indicated and a hole that has been either
machined or EDMed is picked up. Also, two EDMed edges can be used to locate
the part after it has been machined.
Edge Preparation
A. Square Edges
. Machined or Ground.
o ensure accuracy, the pick up edges must be square as shown in Figure 4:4.
Edge
oles
XXXX XXXX
Figure 4:3
Pick-Up From Edges and Holes
Figure 4:4
Edges must be square for proper pick up.
rong Right
-
7/26/2019 Complete EDM Handbook
47/174
roper Procedures for Wire EDM 63
. Unfinished Edges.
In case workpieces cannot be placed flat on the table, workpieces can be made
square to the top surface with sides unfinished by using a special squaring block
as shown in Figure 4:5.
. Scale
Since wire EDM is an electrical process, any material that is non-conductive
ust be removed if it is to be EDMed, or if the area is to be used for picking up.
Scale from heat treating is non-conductive. See Figure 4:6.
The heat-treated parts, particularly holes, must be either cleaned of scale or have
been vacuum heat treated or wrapped before heat treating. Sand or glass blasting
an be used to clean the surfaces where the wire will cut in. However, deep holes
are difficult to clean with sand or glass blasting.
quaring Block
Unfinished edge
Figure 4:5
Special squaring block can be used to make the wire square
to the surface of the material to be cut.
Non-conductive scale
Figure 4:6
o pick up from holes, the holes must be free of scale.
-
7/26/2019 Complete EDM Handbook
48/174
64omplete EDM Handbook
omp iments o www.Re ia eEDM.com
C. Pick-Ups
t is preferred to pick up surfaces without obstructions. If obstructions occur,
pick-ups can sometimes be made from a step by means of a gauge block or gauge
pin. See Figures 4:7 and 4:8.
Starter Holes
A. Automatic Pick-up
When locating parts with starter holes, the machine will automatically pick up
the center of the hole as shown in Figure 4:9. Such holes should be free from burrs
or scale.
Figure 4:8
bstruction Pick-UpA gauge block is used for pick-up.
Figure 4:7
Non-obstructive Pick-Up
Pick-up Surface
ick-up Surface
auge block
Figure 4:9
Wire EDM machines automatically pick up the center of a hole.
Automatic Pick-up
-
7/26/2019 Complete EDM Handbook
49/174
roper Procedures for Wire EDM 65
. nsquare o es
If a hole is unsquare, as illustrated in Figure 4:10, the wire will pick up the high
points and not the center of the hole.
C. Relieved Holes
A relieved hole, as pictured in Figure 4:11 , is the most accurate method to pick
p from a hole. Approximately 1/8 (3 mm) to 1/4 (6 mm) of land should be
eft.
D. Smooth Holes
A drilled hole may leave ragged edges. The wire will pick up the high points of the
ragged edges. To ensure accuracy, a reamed or bored hole is best. See Figure 4:12.
Location not in center
Pick-up points
Figure 4:10
nsquare hole will produce an inaccurate pick-up.
Land - leave 1/8 - 1/4
Figure 4:11
he greatest accuracy is obtained with a relieved hole.
igure 4:12
mooth holes locate pick-ups most accurately.
mooth hole
-
7/26/2019 Complete EDM Handbook
50/174
66omplete EDM Handbook
omp iments o www.Re ia eEDM.com
. Placement and Location of Starter Holes
1. If the part pick-up is in another location, the starter hole requires no precise
location.
. The starter hole should be placed at a straight surface whenever possible, as
shown in Figure 4:13. When parts are not skim cut in order to save machining timeand costs, usually a slightly raised area appears where the part ends. In such cases
the tip can be removed with a file or stone.
3. On narrow slots, the starter hole should be placed in a corner, as illustrated in
Figure 4:14, so that only one slug will be produced when wire EDMed.
igure 4:14
Proper Placement of Starter Hole for Narrow Slots
Place starter holes along straight
surface for easy removal of tip.
eave a 1/8 - 1/4wall thickness
void starter holes in radii or corners
Figure 4:13
Proper Placement of Starter Holes
will create two slugs. .
-
7/26/2019 Complete EDM Handbook
51/174
roper Procedures for Wire EDM 67
Layout
If multiple wire EDM operations are made in one piece, the best method to put
n dimensions is from a reference point of X = 0, Y = 0. See Figure 4:15 for the
deal layout.
igure 4:15
Best Layout Dimensions for Wire EDM
.825
X = 0
Y = 0 .000 2.8751.000 1.500
2.450
1.950
1.700
-
7/26/2019 Complete EDM Handbook
52/174
69
Accuracy and Tolerances
Wire EDM is extremely accurate. Many machines move in increments of 40
illionths of an inch (.00004") (.001 mm), some in 10 millionths of an inch (.00001")
(.00025 mm), and others even in 4 millionths of an inch (.000004) (.0001 mm).
Machines can achieve accuracies of +/-.0001 (.0025 mm); however, skim cuts
eed to be made to obtain such tolerances. See Figure 5:1.
Finishes
Extremely fine finishes of below 15 RMS can be produced with wire EDM.
(Some machines can produce even a mirror finish.) Wire EDM produces an
xcellent finish even in the so-called rough cut. Customers are often amazed
hen shown the fine finish of a single-pass cut.
This fine finish is present even after very large parts are cut, as in Figure 5:2.
n other cutting operations, such as lasers and abrasive water jet, the larger the
part, the rougher the finish. Wire EDM produces a smooth finish because the wire
lectrode goes through the entire part, and spark erosion occurs along the entire
ire electrode.
Courtesy Agie
Figure 5:1
recision Wire EDMing
Understanding the WireEDM Process
5
-
7/26/2019 Complete EDM Handbook
53/174
70omplete EDM Handbook
omp iments o www.Re ia eEDM.com
Wire Path
A. Wire Kerfhe wire never contacts the workpiece. If the wire would contact the workpiece,
there would be a short circuit and no cutting would occur. The wire electrode cuts
by means of spark erosion, thereby leaving a path slightly larger than the wire. A
commonly used wire, .012 (.30 mm), usually creates a .016 (.41 mm) kerf as
shown in Figure 5:3. Thinner wires have smaller kerfs.
igure 5:2
Showpiece: 16 Inches (406 mm) TallCut at Reliable EDM
They can cut up to 36" 914 mm tall
Figure 5:3ire Kerf
.012 (.30 mm) Diameter Wire
.016" (.41 mm)
kerf
-
7/26/2019 Complete EDM Handbook
54/174
Understanding the Wire EDM Process
. Corners and Radii
When the wire turns a corner it can produce a sharp edge on the outside corner,
but it will always leave a small radius on the inside corner as demonstrated in
igure 5:4. The size of this radius is determined by the wire diameter plus the spark
ap.To produce very sharp outside corners, skim cuts are made. Having small corner
radii on the outside corners can prevent the need for skim cuts; this also reduces
ire EDM costs. In stamping dies, sharp corners usually wear first, so a small
utside radius is preferable.
The minimum inside radius for .012(.30 mm) wire is .0063(.016 mm), and
he minimum radius for .010wire (.25 mm) is .0053(.13 mm). These small radii
are achieved by skimming. Smaller radii are possible with thinner wire; however,
ost work is done with thicker wires because thinner wire cuts slower.
Skim Cutting
For most jobs, the initial cut is sufficient for both finish and accuracy. However,
or precision parts, skim cuts achieve greater accuracy and a finer finish. There are
hree main reasons for skim cuts:
Barreling effect and wire trail-off Metal movement Finishes and accuracy
Figure 5:4
nside and Outside Corners
Radius .0063
.012 Wire
orner can be sharp
-
7/26/2019 Complete EDM Handbook
55/174
72omplete EDM Handbook
omp iments o www.Re ia eEDM.com
A. Barreling Effect and Wire Trail-Off
here is a .002 to .003 (.050-.076 mm) gap between the wire and the workpiece.
(Gap is determined by the intensity of the spark energy.) In this gap, a controlled
localized eruption takes place. The force of the spark and the gases trying to escape
causes a slight barreling. On thick workpieces, this barreling causes the center to beslightly hollow. See Figure 5:5.
When cutting sharp corners, the wire dwells longer by the inside radius,
causing a slight overcut; on the outside radius, it speeds, leaving a slight undercut
as illustrated in Figure 5:6. That is why most new machines have a slow downprogram for corner cutting. To achieve maximum corner profiles; however, skim
cutting is recommended.
trail-off is produced when the machine cuts a corner. A slight amount of
material is left behind for a short distance before the wire returns to its programmed
path. For most jobs this slight undercut is negligible.
Figure 5:5
First Cut Corner Conditions
Figure 5:6
kim Cutting is Used For Very Close Tolerances.
.016"
Direction of Travel
ligh
becau
well
Slight undercut
because wire goes
faster around corner
irection of Travel
Act
light hollow on first cut
-
7/26/2019 Complete EDM Handbook
56/174
Understanding the Wire EDM Process 73
The sharper the corner, the greater the overcut and undercut. The accuracy of
he part determines the need for skim cutting. To avoid most of this barreling effect
and wire trail-off, some wire EDM machines automatically slow down in corner
utting. Nevertheless, high precision parts still require skim cuts.
. eta ovement
Even though metal has been stress relieved, it may move after the part has
been cut with wire EDM because the stresses within the metal were not totally
removed in stress relieving. If metal has moved due to inherent stresses, and
he part requires to be precise, then skim cuts are needed to bring the part into
olerance. The accuracies called for by the print determine the number of skim
uts.
C. Finishes and Accuracy
First cuts produce a fine finish; however, sometimes a finer finish and greater
accuracies are required. To accomplish this, skim cuts are used. See Figure 5:7 for
a general view of the various finishes that can be produced with wire EDM. (Some
achines produce different results.)
.0008-.0014 Accuracy
(depending on thickness
of material)
.0004 Accuracy
.0002 Accuracy
A B D E0
45
0
15
MS
Finish
High Speed
Cut
1st
Skim
nd
kim
rd
kim
th
Skim
Figure 5:7
Approximate Accuracies and Finishes
Cut AFor most jobs, this finish and accuracy are more than adequate.
Cuts B-EDepending on accuracy and finish
required, various skim cuts are performed.
-
7/26/2019 Complete EDM Handbook
57/174
74omplete EDM Handbook
omp iments o www.Re ia eEDM.com
Skim cutting produces fine finishes because less energy is applied to the wire
which creates smaller sparks and thus smaller cavities. These small sparks produce
extremely fine finishes, and on some machines mirror finishes.
Carbideungsten carbide, third in hardness to diamond and boron carbide, is an
extremely difficult material to machine. Except for diamond cutting tools and
diamond impregnated grinding wheels, EDM presents the only practical method to
machine this hardened material.
o bind tungsten carbide when it is sintered, cobalt is added. The amount of
cobalt, from 6 to 15 percent, determines the hardness and toughness of the carbide.
The electrical conductivity of cobalt exceeds that of tungsten, so EDM erodes the
cobalt binder in tungsten carbide. The carbide granules fall out of the compound
during cutting, so the amount of cobalt binder determines the wire EDM speed,
and the energy applied during the cutting determines the depth of binder that is
removed.
When cutting carbide on certain wire EDM machines, the initial first cut can
cause surface micro-cracks. To eliminate them, skim cuts are used. However, at our
company, Reliable EDM, we have repeatedly cut carbide parts with a single cut.
When precision carbide parts are needed, then skim cuts are used.
Some older wire EDM machines used capacitors. Since these machines applied
more energy into the cut, there was a greater danger for surface micro-cracking.
Then DC power supply machines without capacitors were introduced, and this
helped in producing less surface damage when cutting carbide.
oday, many machines come equipped with AC power supplies. These machines
are especially beneficial when cutting carbide in that they produce smaller heat-
affected zones and cause less cobalt depletion than DC power-supplied machines.
o eliminate any danger from micro-cracking and to produce the best surface
edge for stamping, it is a good practice to use sufficient skim cuts when EDMing
high-precision blanking carbide dies. Studies show that careful skimming greatly
improves carbide surface quality. Durability tests prove that an initial fast cut and
fast skimming cuts produce very accurate high-performance dies.
Polycrystalline Diamond
he introduction of polycrystalline diamond (PCD) on a tungsten carbide
substrate has greatly increased cutting efficiency. PCD is a man-made diamond
crystal that is sintered with cobalt at very high temperatures and under great
pressure. The tungsten substrate provides support for the thin diamond layer.
he cobalt in PCD does not act as a binder, but rather as a catalyst for the
-
7/26/2019 Complete EDM Handbook
58/174
Understanding the Wire EDM Process
iamond crystals. In addition, the electrical conductivity of the cobalt allows
CD to be EDMed. When PCD is EDMed, only the cobalt between the diamond's
rystals is being EDMed.
EDMing PCD, like EDMing carbide, is much slower than cutting steel. Cutting
speed for PCD depends upon the amount of cobalt that has been sintered with theiamond crystals and the particle size of PCD. Large particles of PCD require very
igh open voltage for it to be cut. Also, some power supplies cut PCD better than
thers.
Ceramics
eramics are poor conductors of electricity. However, certain ceramics are
ormulated to be cut with wire EDM.
Flushing
Flushing is an important factor in cutting efficiently with wire EDM. Flushing
pressure is produced from both the top and bottom flushing nozzles. See Figure
5:8. The pressurized deionized fluid aids in spark production and in eroded metal-
particle removal.
Figure 5:8
deal Flushin Conditions
ressurized Deionized Fluid
ressurized Deionized Fluid
/16minimum
Flush support
-
7/26/2019 Complete EDM Handbook
59/174
76omplete EDM Handbook
omp iments o www.Re ia eEDM.com
Sometimes the flushing nozzle may extend beyond the edge of a workpiece, as
shown in Figure 5:9. When this occurs, flushing pressure is lost, and this can cause
wire breakage and part inaccuracy. To avoid wire breakage in such cases, a lower
spark energy is used which slows the machining process. To avoid losing flushing
pressure, it is advisable, if possible, to leave at least 3/16(5 mm) of material to
support the flushing nozzles.
Cutting Speed
Speed is rated by the square inches of material that are cut in one hour.
Manufacturers rate their equipment under ideal conditions, usually 2 1/4 inch (57
mm) thick D2 hardened tool steel under perfect flushing conditions. However,
differences in thicknesses, materials, and required accuracies can greatly alter the
speeds of EDM machines.
utting speed varies according to the conductivity and the melting properties
of materials. For example, aluminum, a good conductor with a low melting
temperature, cuts much faster than steel.
n the other hand, carbide cuts much slower than steel. It is the binder, usually
cobalt, that is melted away. When the cobalt is eroded, it causes the carbides to fall
out. Various carbides machine at different speeds because of carbide grain size and
the binder amount and type.
Impurities
enerally, impurities cause little difficulty; however, occasionally materials are
received with non-conductive impurities. The wire electrode will either stall or pass
around small non-conductive impurities, thereby causing possible streaks from
raised or indented surfaces.
When welded parts must be EDMed, one should use caution to make certain
there is no slag within the weld. Tig welding is preferred for wire EDM.
Figure 5:9
Poor Flushing Conditions
ost Flushing Pressure
-
7/26/2019 Complete EDM Handbook
60/174
Understanding the Wire EDM Process
Recast and Heat-Affected Zones
The EDM process uses heat from electrical sparks to cut the material. The sparks
reate a heat-affected zone that contains a thin layer of recast, also called white
ayer. The depth of the heat-affected zone and recast depends upon the power, type
f power supply, and the number of skim cuts.
The recast contains a layer of unexpelled molten material. When skim cuts
are used, much less energy is applied to the surface. This greatly reduces and
practically eliminates the recast layer.
n older wire EDM machines, the heat-affected zones and recast were much
ore of a problem. Also, the recast and heat-affected zones of ram EDM are much
reater when roughing because more energy can be used than with wire EDM.
Many of todays wire EDM machines have reduced this problem of recast and
eat-affected zones. Our company, Reliable EDM, is a wire EDM job shop that has
one work for well over 500 companies, including aerospace companies. We have
ire EDMed thousands of jobs and cut all sorts of materials, including carbide
and high-alloy steels. We have had practically no negative results from recast and
eat-affected zones. Most work is done with just one cut. For precision parts, skim
uts are used.
Newer machines now come equipped with anti-electrolysis power supplies, also
alled AC power supplies. These power supplies greatly reduce the recast and heat-
affected zones. On some machines, the heat-affected zone for the first cut is .0015
(038 mm), on the first skim cut it is .0003(.0076 mm), and on the second skim
ut it is .0001(.0025 mm).
For years, the recast and heat-affected zones have been a concern for the
aerospace and aircraft industry. With the improvement of power supplies, these
ndustries increasingly accept work done with wire EDM.
AC Non-Electrolysis Power Supplies
Instead of cutting with DC (direct current), some machines cut with AC
(alternating current). Cutting with AC allows more heat to be absorbed by the wire
nstead of the workpiece.
Since AC constantly reverses the polarity of the electrical current, it reduces the
eat-affected zone and eliminates electrolysis. Electrolysis is the stray electrical
urrent that occurs when cutting with wire EDM. For most purposes, electrolysis
oes not have any significant effect on the material. However, the elimination of
lectrolysis is particularly beneficial when cutting precision carbide dies in that it
reduces cobalt depletion.
When titanium is cut with a DC power supply, there is a blue color along where
he material was cut. This blue line is not caused by heat, as some suspect, but by
-
7/26/2019 Complete EDM Handbook
61/174
78omplete EDM Handbook
omp iments o www.Re ia eEDM.com
electrolysis. This effect is not generally detrimental to the material. However, AC
power supplies eliminate this line.
ike AC power supply, the AE (anti-electrolysis) or EF (electrolysis-free) power
supplies improve the surface finish of parts by reducing rust and oxidizing effects
of wire EDM. Also, less cobalt binder depletion occurs when cutting carbide,and it eliminates the production of blue lines when cutting titanium. AC and
non-electrolysis power supplies definitely have advantages. See Figure 5:10 for
comparison between anti-electrolysis and conventional machining.
Isolated Pitting
When doing mold work, the surface finish of the molds is extremely important.
On certain materials, such as H-13 and S-7, pitting sometimes occurred when the
steel was wire EDMed. However, pitting never occurred when cutting D2 steel. It
was discovered that the chrome content of D2, which is 12%, was much higher than
H-13only 5% chrome, and S-7only 3.25%. However, H-13 and S-7 are very
popular mold steels.
he chrome content answered some of the problems, but not all. Sometimes
when cutting H-13 and S-7 pitting did not occur. The question arose, "Why does
pitting only occur occasionally."
fter further testing it was discovered that magnetism was the reason for the
pitting. On some occasions, even after the steel was thoroughly demagnetized,
they found some pitting. Then it was discovered even the rails on the wire EDM
machine, which could have residual magnetism, had an effect. One mold company
found a solution by purchasing an instrument that measured magnetic induction
(Gaussmeter). The company came to the conclusion that residual magnetism was
the basic cause for pitting.
Figure 5:10
Anti-Electrolysis and Conventional Machining Surfaces Compared
ubishiCourtesy Mits
-
7/26/2019 Complete EDM Handbook
62/174
Understanding the Wire EDM Process 79
Heat-Treated Steels
Wire EDM will machine hard or soft steel. Materials requiring hardening
are commonly heat treated before being cut with wire. By heat treating
steel beforehand, it eliminates the distortions that can be created from heat-
reating.
The decision to heat treat steel before or after is often determined by the
equired accuracy needed, or if machining must be done after wire EDMing.
Cutting Large Sections
Steels from mills have inherent stresses. Even hardened steel that has been
empered often has stresses remaining. For cutting small sections, the effect is
egligible. However, for large sections when there is a danger of metal movement,
t is advisable to remove some of the metal. By removing metal, it helps to reducehe possibility of metal movement. Workpiece accuracy is the determining factor if
etal needs to be removed. See Figure 5:11.
Figure 5:11
emoving Material to Reduce Stresses on Large Parts
Leave at least 3/16 of material for EDMing.
ut out inside section with band saw.
-
7/26/2019 Complete EDM Handbook
63/174
80omplete EDM Handbook
omp iments o www.Re ia eEDM.com
etal movement can also be reduced by cutting relieving slots with a band
saw to connecting holes, as in Figure 5:12. Steel should be stress relieved before
heat-treating to remove the stresses caused by milling, drilling, and grinding. After
heat-treating, the tool steel should be double or triple drawn, including the non-
deforming air hardening tool steels. Another method to remove stresses is to usecryogenics (deep freeze). The tool steel is hardened and tempered; then it is put into
deep freeze and retempered.
Cutting Sections From a Block
A. Leaving a Frame
When a section must be cut from a block of steel, a frame should be left around
the workpiece to ensure accuracy and to reduce cost. At least 1/4 to 1/2" (6.5 to 13
mm) should be left around the part so that flush nozzles can efficiently remove the
eroded particles and also support the part for clamping. See Figure 5:13.
Figure 5:12
Using Saw Slots to Reduce Stresses on Large Parts
Drilled
Holes
Figure 5:13upport Part With Frame
Leave at least 1/4-1/2of material
to support frame and flush.
Starter
Hole
Leave at least 3/16of material for EDMing.
aw slots
-
7/26/2019 Complete EDM Handbook
64/174
Understanding the Wire EDM Process 1
B. Strength of Frame
Sufficient extra material needs to be left around the part. When the part is held
in a fixture, the extra material will prevent the part from moving as it is being
EDMed. Figure 5:14 demonstrates a weak support frame. While the part is being
EDMed, the frame becomes weak, which can cause the part to move.
C. Material for Clamping
For many parts fixtures are used as in the above illustration. However, for some
parts provision should be made for clamping. See Figure 5:15.
Understanding the Wire EDM Process
The better understanding one gains of the wire EDM process, the more benefits
ne can obtain from this process. The next section covers how to reduce wire
costs.
igure 5:14
Improper Support Frame
rame is too weak. As
he part is EDMed the
rame collapses.
Figure 5:15
xtra material provided for clamping
Leave 1-1/4
or clamping
-
7/26/2019 Complete EDM Handbook
65/174
3
Wire EDM costs can be greatly reduced if the material has been properly
prepared and the EDM process is understood. Unfortunately, the opposite is also
rue. Wrong preparation can be costly.
Create One Slug
To reduce costs, the general aim should be to create one slug. Wire EDM is an
automatic process; if more slugs are made, it requires more down time and operator
services. Also, when surfaces close to an edge are cut, inadequate flushing occurs
hich reduces cutting speed.
When entering a workpiece on a slight angle, feathered-edge machining occurs.
his feather-edge machining may cause slight surface irregularities. Skim cutting
an be used to remove such irregularities; however, unnecessary skim cuts increase
ost. Cutting one slug is much more cost effective. See Figures 6:1 - 6:4.
Figure 6:1
rong ProcedureCreates six slugs and slows the process with feather-edge machining
akes six slugs.
Feathered-Edge Machining
Reducing Wire EDMCosts
6
-
7/26/2019 Complete EDM Handbook
66/174
84omp ete EDM Han oo
Comp iments o www.Re ia eEDM.com
Figure 6:2
ight ProcedureCreates one slug which produces more efficient machining
Leave at least 3/16 (9.84 mm)
Small hole in center
creates one slug.
igure 6:3
Wrong ProcedureCreates Five SlugsFive starting cuts must be made,
nd five times the machine must be stopped to remove each slug.
Figure 6:4
ight ProcedureCreates One SlugLeaving extra material
n the outside allows for one slug to be cut.
-
7/26/2019 Complete EDM Handbook
67/174
Reducing Wire EDM Costs 5
Keeping Flush Nozzles on the Workpiece
The most efficient method for wire EDMing is placing both top and bottom
lush nozzles on the workpiece as shown in Figure 6:5. This placement allows for
aximum flushing pressure to remove the eroded chips.
If possible, nozzles that are not on the workpiece should be avoided because it is
ess efficient because of less water pressure in the cut. See Figure 6:6.
For many applications, however, there is no alternative but to have nozzles off
he workpiece. At our company, Reliable EDM, we cut many jobs with nozzles off
he workpiece, including tall parts. See Figure 6:7.
Figure 6:5
Most efficient cutting occurs when both flush nozzles rest on the part.
Figure 6:6
Cutting with nozzles not on the workpiece is possible, but it is less efficient.
-
7/26/2019 Complete EDM Handbook
68/174
86omp ete EDM Han oo
Comp iments o www.Re ia eEDM.com
Machining After Wire EDM
o avoid cutting with nozzles off the workpiece, it is sometimes more economical
to do machining after, rather than before the EDM process. This is particularly true
with shallow recesses as in Figure 6:8.
Recess
ew
Figure 6:7
An 11-1/2 Inch (292 mm) test specimen cut out of a large gear with nozzles off the workpiece.
Figure 6:8
Machine the Workpiece After Wire EDMing
Since the recess is shallow it is more efficient to do the EDMin when the art is solid.
-
7/26/2019 Complete EDM Handbook
69/174
Reducing Wire EDM Costs 7
ften parts are stacked to reduce costs. When parts have intricate dimensions,
stacking may be difficult if parts have been previously machined as shown in
igure 6:9.
If parts can be stacked, it is preferred that holes be put in after the part has been
DMed. Putting holes in first can cause alignment difficulties when the parts are
set up in a fixture as in Figure 6:10.
Cutting Multiple Plates and Sheet Metal Parts
Stacked sheet metal can be held with fixtures without the need for welding.
owever, when multiple parts from one stack and starter holes are required, the
stack can be bolted with flat head screws or welded on its sides. The stack should
be flat, and the EDM job shop should be consulted for the ideal stack thickness.
igure 6:9
Holes should be put in after EDMing.
Ma ing one piece presents no problem; however, parts like these are stacked. If holes are
premachined, it is difficult to line up the holes when cutting large stacks.
.
Figure 6:10
ut tapped hole in after EDMing.Parts like these are often stacked in a V block. Higher machining costs occur
because tapped holes cause alignment difficulties.
5/8
-
7/26/2019 Complete EDM Handbook
70/174
88omp ete EDM Han oo
Comp iments o www.Re ia eEDM.com
Accuracy, efficiency, and machine capabilities determine the height for stacked
parts.
Wire EDM will cut through light rust; however, heavy rust and scale must be
removed. Many times plates are warped. The plates should be clamped tightly
together before welding. At least 1/2 (13 mm) should be left on the sides for
welding and clamping the part. See Figure 6:11 for proper stacking.
f sheets or plates are badly warped, each stack should be divided in half and the
belly should hit the center. The ends are then clamped together and welded. The
aim should be to produce a flat surface. The weld should be removed from the top
and bottom of the stack so flush ports do not hit the weld.
When putting stacks together, all sheets must be cleanmarker paint, (not magic
marker), scale, tape, or paper between the sheets must be removed. Wire EDM cuts
by spark erosion; it cannot cut through non-conductive materials.
Production Lots
Wire EDM is an excellent machining method for production work. Fixtures
are often used to hold the multiple parts. It is important that production lots are
machined the same in the area where they will be located. Parts also need to be
machined square. See Figure 6:12.
Head Bolts
1/2 (13 mm)
from edge
Figure 6:11
tacks Welded or Bolted
At least 1/2 (13 mm) should be left for clamping and a frame to support part while cutting.Caution: If parts are welded or bolted, both sides of plates must be clean and
free from heavy scale, tape, paper, or any other non-conductive materials.
-
7/26/2019 Complete EDM Handbook
71/174
Reducing Wire EDM Costs 9
Stipulating Wire Sizes
Some machines can cut with .0008(.020 mm) wire. One wire EDM job was
one on a .015(.38 mm) diameter air turbine rotor. It had 13 slots cut with .00039
(.01 mm) wire. This was done on a specialized wire EDM machine.
The difficulty with cutting with thin wires is that it machines much slower
because less energy can be applied to the wire. Also, thin wires break much more
asily than standard wire sizes. Some applications require thin wires; however,
henever possible stay with the standard wire size of .010(.25 mm) or .012(.30
m) wires. Stipulating thin wire can add significant costs to the wire EDM process
because of slower cutting feeds and difficulties associated with such wires.
Figure 6:12
Production EDMingWhen machining parts, consideration should be made for stacking.
Outside diameter should
be the same and square
to assure accuracy
-
7/26/2019 Complete EDM Handbook
72/174
90omp ete EDM Han oo
Comp iments o www.Re ia eEDM.com
Pre-Machining Non-Complicated Shapes
t is not always necessary to EDM the entire part. Sometimes pre-machining can
reduce costs as shown in Figure 6:13.
Wire EDM is an extremely efficient method to machine parts. However, costs
can be further reduced by understanding this unique process of cutting metal. In
the next chapter we will be discussing the advantages of wire EDM in tool and die
making. Understanding this process can result in substantial savings in producing
stamping dies.
Figure 6:13
Pre-Machine Parts to Reduce Costs.
Weld
Pre-machined surface
-
7/26/2019 Complete EDM Handbook
73/174
Tool and Die Making
Wire EDM has revolutionized tool and die making. To understand the extent
f the wire EDM revolution for stamping dies (Figure 7:1), let Carl share some
istory.
Old-Fashioned Tool and Die Making
In 1950, I started to work in a machine shop; one year later I became an
apprentice tool and die maker in a large handbag frame plant in Brooklyn. The
plant produced a large variety of handbag frames which required many kinds of
ixtures and dies.
From 01 tool steel we milled, ground, or filed the form punch. The punch washen hardened in a gas-fired oven that had no temperature gauge. In those days, one
earned early the necessary cherry red color to indicate that the punch was ready to
be quenched in oil. After quenching, we used a gas torch to temper the punch to a
ight straw color.
Using the hardened punch as a template, we traced the pattern on a piece of tool