Standard Profile Catalogue

October 2012

Content

IntroductionSynopsisThis Hulamin Extrusions Standard Profile Catalogue lists the range of standard dies available at the time of going to press.

RangeThe range of extrusions available is constantly changing and enquiries for shapes not listed can be made through any of our sales offices. Please also refer to our website, www.hulaminextrusions.co.za for the latest version of this catalogue.

ShapeAll dimensions are expressed in millimeters (mm). Fully dimensioned die drawings are available from any one of our sales offices which can provide complete details of any section required.

MassAll profile masses are expressed in kilograms per metre (kg/m).

Content

Hulamin ExtrusionsHulamin Extrusions has a proud record of extrusion supply both locally and throughout the world. Our commitment is to build a reputation with our customers for quality and service.

Company Profile

The aluminium extrusion business of Hulamin Extrusions was founded 40 years ago by Alcan.

Today Hulett Extrusions have production plants in Olifantsfontein, Pietermaritzburg and a sales office in Cape Town. Our expertise and reputation emanates from our diverse shareholder background which includes

Alcan - the founding company.Huletts Corporation - who acquired the majority

shareholding from Alcan in 1974.Tongaat Hulett - Huletts Corporation merged with the

Tongaat Group in 1981 and the name was changed to Hulett Aluminium in 1982. Alcan subsequently sold its remaining 26% shareholding and Hulett Aluminium became a wholly owned subsidiary of Tongaat Hulett in 1986.

Hydro Aluminium Extrusions - one of the world's leading extruders became a shareholder in the extrusion division during the period 1997 to 2008.

Hulamin Extrusions - in June 2007 Hulamin listed on the Johannesburg Stock Exchange and subsequently Hulett-Hydro Extrusions changed its name to Hulamin Extrusions.

In 2008 Hulamin acquired the Hydro Aluminium shareholding to become the sole shareholder of Hulamin Extrusions.

Hulamin Extrusion's customer base covers all the major market segments in the Southern African market, extending into the demanding engineering markets within the United Kingdom, Europe and North America.

In Southern Africa Hulamin Extrusions are the leaders in developing extrusions for a diverse range of markets which design products and solutions using the benefits of extruded aluminium.

Quality from Start to Finish

Hulamin Extrusions operates a quality management system approved to ISO 9001:2000 and dimensional tolerances to EN 755. This system allows quality management from an initial contract review through to product shipment. Laboratory facilities are also available to assist with quality assurance and any necessary metallurgical testing.

Hulamin Extrusions also boast the prestigious ISO 14001:2004 Environmental Management Systems accreditation, proudly looking after our environment and promoting the recycling of aluminium and other process waste.

Content

Contents

4Hulamin Extrusions Standard Profile Catalogue

How to order 5The Properties of Aluminium 6Alloys 7Technical Grade 11Manufacturing Limits 11Dimensions 12Lengths 12General 12Forms of Corrosion 13Corrosion Resistance in Different Environments 14Surface Treatment 14

Extruded Rods 27Extruded Tubes 28

Square Bars 35Hexagonal Bars 35Rectangular Hollows 36

Square Hollows 39I - Sections 41

TeesType 1 42Type 2 43

Z - Sections 43

Engineering Data for Structural Shapes 44

AngleType 1 44Type 2 47Type 3 48Type 4 49Type 5 53

ChannelType 1 55Type 2 59Type 3 60

I - Sections 62

TeesType 1 63Type 2 64

Index 65

AnglesType 1 15Type 2 16Type 3 16Type 4 17Type 5 19Type 6 20Type 13 20

ChannelsType 1 21Type 2 24Type 3 24Type 4 25Type 5 25Type 7 25Type 11 26

Flat BarsType 1 31Type 2 33Type 3 34

Type 6 54

Type 4 & 5 61

Rectangular Oval Hollows 38

October 2012

5 Hulamin Extrusions Standard Profile Catalogue

How to orderEssential information required for entry of enquiries or orders

Complete specifications:

Shipping tolerancesExtruded products will, within practical limits, be supplied in the number of pieces ordered. Unless otherwise stated, orders for production by Hulamin Extrusions will be subject to a mass or piece quantity tolerance of 10%.

Supply of an exact number of pieces or other shipping tolerances closer than those stated will be subject to enquiry, and may incur a price premium.

Other requirementsOrders should be clearly detailed with any special requirements.

Minimum acceptable quantities per itemThe process is such that a minimum length of extrusion emerges from the extrusion cycle. This results in certain minimum quantities being readily produced. All enquiries will be handled by our sales offices who will advise on minimum quantities. A price premium is applied to smaller orders.

MassesThe masses shown for sections in this catalogue are for guidance and may vary slightly according to the alloy and the dimensional accuracy achieved when produced and within the permissible tolerances.

If over-shipment is not permissible the order shall be endorsed Do not over-ship mass (or Pieces as is applicable) in whichcase an under-shipment of 10% may be supplied.

alloy/conditiondrawing number/die numberpart number where applicablelengthsspecial tolerancesfinishing requirements - painting and anodising (type, colour and micron thickness of anodising)whilst the exact finishing and anodising perimeters are shown, the price for painting/anodising might be based on a minimum finishing perimeterfabrication related specification details to ensure material conforms to detailed requirements

Additional information:End use: Brief detail on end use of materialDelivery requirements: State specific delivery requirements

PackingUnless otherwise specified on the order, normal Hulamin Extrusions packing methods will be used.

October 2012

Content

Aluminiums physical properties compared to other common construction materials.

Aluminium 6063 Copper Steel 371 Plastic225

10 to 24

69 000

2 700

600 to 655

-250 to 150

35

200

23

Yes

Yes

250

25

125 000

8 900

1 080

-200 to 300

55

400

17

Yes

Yes

400

20

210 000

7 800

1 500

-50 to 500

7

76

12

No

Yes

50

25

3 000

1 400

80

-50 to 80

-

0,15

60 to 100

Yes

Yes

Strength / Breaking strength (MPa)

Ductility / Expansion (%)

Elasticity E, Youngs modulus (MPa)3

Density (kg/m )o

Melting point ( C)

2Electrical conductivity m/Ohm-mm

Heat conductivity (W/mK) o-6Coefficient of linear expansion x 10 / C

Non-magnetic

Weldable

The Properties of AluminiumAluminium has a unique and unbeatable combination of pro-perties that make it a versatile, highly usable and an attractive construction material.

Mass3

Aluminium is a light metal with a density of 2,700 kg/m , one 3

third that of steel. (8,400 kg/m )

ElasticityThe Young's modulus for aluminium (E=69 000 MPa) is a third that of steel. This means that the moment of inertia has to be three times as great for an aluminium extrusion to achieve the same deflection as a steel profile.

JoiningAluminium can be joined using all the normal methods avail-able such as welding, brazing, adhesive bonding and riveting.

Corrosion resistanceA thin layer of oxide is formed when exposed to air. This pro-vides very good protection against corrosion even in corrosive environments. This layer can be further strengthened by sur-face treatments such as anodising or powder coating.

ConductivityThe thermal and electrical conductivities are excellent, even when compared with copper. Furthermore, an aluminium conductor has only half the weight of an equivalent copper conductor.

Linear expansionAluminium has a relatively high coefficient of linear expan-sion compared to other metals. This should be taken into account at the design stage to compensate for differences in expansion.

Non-toxicAluminium is non-toxic and is therefore highly suitable for the preparation and storage of food.

ReflectivityAluminium is a good reflector of both light and heat.

6Hulamin Extrusions Standard Profile Catalogue

StrengthAluminium is strong with a tensile strength between 70 and 700 MPa, depending on the alloy and manufacturing process. Extrusions of the right alloy and design can be as strong as structural steel.

FormabilityAluminium has good formability in both hot and cold condition, a characteristic that is used in full in the extrusion process. Aluminium can also be cast, drawn and rolled.

MachiningAluminium is very easy to machine. Ordinary fabrication equipment (saws and drills) and machining equipment (lathes and milling machines) can be used.

Thermal ConductivityAluminium thermal conductivity is half that of the equivalent

3sized copper element (8 900 kg/m ), but has a density (2 700 3kg/m ) of less than a third of that of the copper element. The

equivalent aluminium element therefore comes at less than half the price and is much easier to handle because of the light weight.

6Working temperature range (x 10 / m)

October 2012

Content

Alloy EN Equivalent Previous German Equivalent

1070A Al 99,7 Al 99,7

6063 Al Mg0,7Si AlMgSi 0,5 F226061 Al MgSiCu -

6082 Al Si1MgMn AlMgSi 1

6005A Al SiMg (A) AlMgSi 0,7

Alloy Designations

AlloysTechnical InformationAlloy Nomenclature

Important:The four-digit system of alloy nomenclature used by Hulamin Extrusions, in common with the Aluminium Federation, uses a block number to indicate the main alloying constituents.

1xxx2xxx3xxx4xxx5xxx6xxx7xxx

Alloy Series

SiliconMagnesium

Magnesium and SiliconZinc, Magnesium and/or Copper

Main alloying constituentAluminium, 99.0% minimum and greater

CopperManganese

7 October 2012

1070A

Alloy Temper Overmm

Thickness

Up to and including

mm

0,2%Proofstress

Min MPaMinMPa

MaxMPa

A %Min

A50 mm%

mm

Ultimate tensile strength Elongation Min

F - - -All 60 25 23

6063

OT4T5T5T6T6

---

-

- ------

3

10

100253

251080

65130110170160

120175160215195

130 18148788

16126566

6061OT4T6

---

- - ---

2580

110240

180260

150 16158

14136

6082

OFT4T6T6

----

--

----- -5

10010080580

110250260

110205290310

160 16131488

1412126

6005AHOLLOW

PROFILES

T4T6T6

--

---

---5

510

15

90215200

180255250

1366

6005ASOLID

PROFILES

T4T6

--

5

90 ---- 610

1051080

225215200

180270260250

15888

1366

T6T6

Guaranteed Mechanical Properties - Extruded Products

Content

Alloy

Percentages

Si Fe Cu Mn Mg Cr Zn TiOthers

Each Total

1070A 0,20 0,25 0,03 0,03 0,03 - 0,07 0,03 0,03 -

6061 0,40-0,8 0,7 0,8-1,2 0,04-0,35 0,25 0,15 0,05 0,150,15-0,40 0,15

6005A 0,5-0,9 0,35 0,50 0,40-0,7 0,30 0,20 0,10 0,05 0,150,30

6082 0,7-1,3 0,6-1,2 0,25 0,20 0,10 0,05 0,150,100,50 0,40-1,0

6063 0,20-0,6 0,35 0,10 0,10 0,45-0,9 0,10 0,10 0,10 0,05 0,15

Alloy Compositions.

The choice of material is a critical decision in all product de-velopment. Aluminium makes it possible to give the product suitable physical and mechanical properties at the same time as achieving an aesthetically attractive appearance.

Furthermore, the extrusion technique, combined with the

number of application opportunities. It also forms the basis for product improvement. Pure aluminium is only used in a limited way commercially. The majority of extrusions are made from aluminium alloyed with other metals.

sions for windows and doors, lighting, awnings, handrails and furniture. This material is highly suitable for anodising, both for decorative and protective reasons.

The 6005 alloy has higher strength than 6063 but is slightly harder to extrude. The material withstands comparatively little elon-gation before there is permanent deformation in the heat treated condition. This alloy can be exposed to greater inter-crystalline corrosion than 6063 and 6082, it is suitable for anodising for protective purposes but the quality of the surface

Tempers

Temper Description ApplicationF As fabricated Forging stock: Maximum formabilityO Annealed Forging stock: Maximum formability

T6Where highest mechanical properties are required

T4 Solution heat treated and naturally aged Formability with higher properties than F or O conditions

T5Cooled from an elevated shaping process and Where highest mechanical properties are

not required by end use (i.e. non-structural)

The most common elements used are magnesium (Mg), silicon (Si), manganese (Mn), zinc (Zn) and copper (Cu). They form between 0.2 and 0.7 per cent of aluminium alloys.

Aluminium alloys used for extrusions are generally designatedwith the following serial numbers:1000 series - Al6000 series - Al + Mg + Si

The 1000 series is not heat treatable. These alloys are often chosen in products where high thermal and electrical con-ductivity are desired. They have low strength.

The 6000 series are heat treatable. They are the most com-monly used extrusion alloys and have a wide range of appli-cations.

The 6000 series has good extrudability and can be solution heat treated at the extrusion temperature. Furthermore, these alloys have medium to high strength, are easy to weld and offer good resistance to corrosion, even in marine en-vironments. The bulk of the extruded material for load bear-ing constructions is made from these qualities. They are used for load bearing constructions both on land and at sea.

The 6063 alloy offers medium strength and is easy to extrude even for complicated cross sections. This alloy is one of the most used extrusion alloys. It has good formability during bending in the T4 condition. Typical applications are extru-

The 6061/6082 alloys have high strength qualities and are suitable for extrusion of cross-sections that are not too com-plicated. Typical applications are load carrying structures in ships, offshore transport, and the building industry such as platforms, bridges, stairs, scaffolds and handrails. The material is suitable for anodising for protective purposes.

Temperature mechanical propertiesCare should be taken when using aluminium at high tempera-

at temperatures above 100C, especially if the material has been thermally hardened or cold worked.

In general the 6063, 6005, 6061 and 6082 alloys should not be used in structures at temperatures above 100C. The tensile strength decreases as the temperature increases while elong-ation on fracturing usually increases. It should be noted that the characteristics are dependent on alloy, temperature, and time. If the designer is unfamiliar with the exact temperature characteristics for a given alloy, it can be assumed as a starting point that properties such as tension, shear and fatigue strength vary in proportion to the tensile strength.

Low temperature propertiesIn contrast to steel, aluminium alloys do not become brittle at low temperatures. In fact aluminium alloys increase in strength and ductility whilst impact strength remain unchanged. As the temperature decreases, below 0C, the yield strength and tensile strength of aluminium alloys increase.

8October 2012

Content

Values for the mechanical properties can vary for different process parameters. The values given are typical and can be guaranteed on the assumption that a special agreement has been reached.

The relationship between some accepted methods for measuring hardness.

Brinell

Vickers

Rockwell F

Rockwell E

Rockwell B

Rockwell K

Webster

Hardness Number

45 50 55 60 65 70 75 80 85 90 95 100 105 110

46 51 56 61 66 71 76 82 87 92 98 103 109 115

36 46 54 61 67 71 76 79 82 85 87 89 91

47 55 62 68 72 77 80 83 86 88 90 92 94 96

12 23 32 39 45 50 56 60 63 66

15 25 35 41 48 53 58 62 66 70 73 76 78

13121110975 13-14 14-25 15 15-16 16 16-17 17

- - - -

-

-

Summary of Alloys

Hulamin Extrusion Alloys Condition 1070A 6063 6005 6061 6082O 20 - - - -

F 25 - - - -

T4 - 95 70 145 125T6 - 225 260 275 290O 75 - - - -

F 80 - - - -

T4 - 190 160 220 225T6 - 250 285 310 315T4 - 24 22 20 20T6 - 10 8 10 10T4 - 47 47 65 65

T6 - 81 92 100 100

2 700 2 700 2 700 2 700 2 710

69 000 69 000 69 000 69 000 69 000

Electrical conductivity % IACS - 62 52 52 46 46Melting Point ( C)

o - 645-658 600-655 615-655 580-650 580-650EN-AW 6063A 6005A 6061 6082

Yield strength, (MPa)

Tensile strength, (MPa)

Elongation, A5 %

Brinell Hardness, HB

Density (kg/m )2

Young's Modulus (MPa)

Coefficient of expansion20-100 C

o -6(x 10 / C)

o - 24 23 23 24 23

200 180 180Thermal conductivity

20oC (W/mK)

- 229 200

-

-

9 Hulamin Extrusions Standard Profile CatalogueOctober 2012

Content

Metal Thickness Chart

Definitions1. Flat solid shapes:

Shape to be basically flat.Thickness to be uniform.No dovetails or screw receiving slots.

2. Regular solid shapes:1 3H = / D W = / D3 4

Medium depth channels:1 1H = / D W = / D3 2

3.

Deep solid channels:1H = / D to 3W2

4.

DH

W

10Hulamin Extrusions Standard Profile Catalogue

Semi-hollow and hollow shapes5.

4.00

3.80

3.60

3.40

3.20

3.00

2.80

2.60

2.40

2.20

2.00

1.80

1.60

1.40

1.20

4.00

3.80

3.60

3.40

3.20

3.00

2.80

2.60

2.40

2.20

2.00

1.80

1.60

1.40

1.20

20 40 60 80

100

120

140

160

180

200

220

240

260

280

mm

Diameter of Circumscribing Circle (D)

Min

imum

rec

omm

ende

d m

etal

thic

knes

s (T

)

Min

imum

rec

omm

ende

d m

etal

thic

knes

s (T

)

mmmm

Sem

i-hol

low

and

hollo

w sh

apes

(5)

Deep

solid

chan

nels

(4)

Mediu

m de

pth ch

anne

ls, an

gles,

tees (

3)

Regu

lar so

lid sha

pes (2)

Flat so

lid shap

es (1)

October 2012

Content

Technical GradeTechnical grade implies that the following tests will be carried out.

Ultrasonic testingThe aluminium billet to be used will be ultrasonically tested to a pre-determined level to detect inclusions and cracks. Should a customer require the billet to be to a higher standard, the standard of acceptance shall be agreed with the customer prior to manufacture and clearly stated on the order.

Etch test piecesFor extruded lengths or bars or sections produced, test pieces of the full cross-section shall be taken from the front end and back end of the extruded length. The specimen shall be suitably prepared, etched and inspected. The etched sur-

Dface shall be free from harmful defects . If any specimen reveals a harmful defect, the relevant length of bar or section shall be scrapped.

DDefinition - Harmful defects in the above context refers to any physical defect such as cracks and over extrusion, which can be seen with the naked eye. It is up to the pur-chaser to inform the manufacturer of any other possible defects for which the product should be checked.

Longer than normal discardsFor each billet extruded, a longer than normal discard will be set and maintained so as to obviate the risk of over extrusion.

Drift testingAll hollow sections with wall thickness up to 12 mm produced by the porthole type extrusion die shall have test pieces cut from every extruded length. Test pieces shall be subjected to an expansion test to determine the soundness of the extruded seam welds. HE can however not provide a 100% guarantee on the weld soundness even though the above testing has been carried out. It is the responsibility of the end user to ensure that the product is entirely suitable for its intended use. Profiles with wall thickness greater than 12 mm cannot be drift tested.

TraceabilityAll test pieces and heat treatment records relating to Tech-nical Grade lots are kept for a period of six months and five years respectively to enable traceability and ongoing evalu-ation of quality.

Manufacturing LimitsGeneral NotesManufacturing limits are imposed by available production facilities and also by the nature of the extrusion process. The size and power of available extrusion presses limit the overall cross-sectional dimensions of sections. The stretching, hand-ling and heat-treatment equipment limit cross-sectional areas and lengths. Lengths may also be limited by transport restrictions. Minimum thickness, shape configuration and complexity of detail may be limited by the extrusion process as well as by press capacity. Manufacturing limits for sections of complicated shape and abnormal design may be narrower than stated. The limits given are for sections designed accor-ding to accepted extrusion design practice. The maximum circumscribing circle diameters given on Page 12 are a guide and must not be read as being available at the minimum thickness shown in the adjacent column. A guide as to this ratio of circumscribing circle to minimum thickness may be obtained from the diagram on Page 10. The maximum limits as dictated by press capacity, are given on Page 12.

Manufacturing TolerancesAs with all manufacturing and fabrication processes, the pro-cess whereby aluminium is extruded sets a range of manufac-turing tolerances within which aluminium extrusion products can be expected to vary.

The extrusion process is remarkable in its ability to produce lengths of intricate shapes within close shape and dimen-sional tolerances. Normal deviations are proved to be small and to have little impact in a very wide range of applications. Although dies are produced to exact size with virtually no tolerances allowed in manufacture, the extruded profile emer-ging from the die is subject to:

Extrusion flow effects (influenced by die design and shape design)

Cooling effects (both cooling medium and profile design can lead to irregular cooling)

Handling effects (transfer and stretching)

Minor deviations to shape and size can be expected to occur no matter how experienced the die designer, how good the handling equipment or how well-trained the operating staff. It is against this background that extrusion tolerances need to be part and parcel of the extrusion process. In no way are published tolerances to be seen as the extruder's choice of how accurately he decides or wishes to work. Rather, extru-sion tolerances need to be seen and understood to be the range of shape and dimensional variations, which can be expected from the process.

The choice open to the extruder faced with requests for closer than standard or published tolerances depends on the nature of the request.

If a metal dimension is involved, i.e. across the web of a channel, the prospects are good that closer than normal tolerances may be achieved provided the dimension is measurable. Shorter die life is likely to be incurred because the die may need to be replaced earlier than normally is the case, due to die wear.

If a space dimension is involved, i.e. the width across the open flanges of a channel. Only in exceptional cases where it is vital for an assembly, will closer than Data Book tolerances be considered.

The straightness of a length of extrusion can depend on the degree to which the shape can be stretcher-straightened without incurring shape distortion. A compromise between straightness and shape may result. Both straightness and twist can be influenced by imbalance of the shape itself.

It is most important that new users of extruded products are aware from the design stage that machining tolerances can-not be expected from the extrusion process. All too often de-signers and draughtsman have had experience of machine shop tolerances only and need guidance in the understan-ding of extrusion tolerances or they are likely to specify the tolerances they are most familiar with. This can result in needless communications with producer plants, possibly obscuring, as a result, very real needs a designer may have for closer than normal tolerances.

The time to discuss extrusion tolerances is thus at the design stage rather than after delivery of the product which may be found to be difficult to use because allowance has not been made for normal tolerances.

11 Hulamin Extrusions Standard Profile CatalogueOctober 2012

Content

Maximumcircumscribing

circlediameter mm

Alloy

Minimumthicknessmm (2)

Range of cross-sectional areas and weight

Maximum Minimum

Area2mm (3)

Masskg/m

Area2mm

Masskg/m

Dimensional Capability Guide

1.20

1.20

1.50

1.75

1.25

1.25

1.50

1.751.60

5000

5000

5000

5000

5000

5000

5000

5000

13

13

13

13

13

13

13

13

26

29

55

55

55

55

195

195

0.07

0.08

0.15

0.15

0.15

0.15

0.53

0.53

320

320

320

320

200

200

200

200

1070A

6063

6061

6082

1070A

6063

6061

6082HO

LLO

WS

SOLI

DS

The tolerances used by our extrusion plants as published in the Data Book are those published by the British Standards institute in BS EN 755. Tolerances for tubes may vary fromBS EN 755 and are as published in the Data Book.

Requests for tighter tolerances than these may be considered. Requests to produce to other specifications such as DIN, ASTM, BS EN 12020 and ISO will be considered but this must be made clear to the producing plant at the enquiry stage.

DimensionsNotes: (Refer to table below)

1.The manufacturing limits below are given as guidelines only and profiles outside of these limits may be available upon request.

2.The minimum thickness at which a section can be extruded is dependent on the alloy, circumscribing circle diameter, shape configuration and the complexity of detail. A guide to the relationship between circumscribing circle diameter and minimum wall thickness is shown on page 10. The minimum thickness listed above does thus not relate to the maximum circumscribing circle diameters.

3.The maximum limit on cross-sectional area is imposed by extrusion ratio and stretching capacity. Sections of greater cross-sectional area may be supplied in the unstretched condition, on enquiry, but mechanical properties and straightness will not be guaranteed.

Hollow ProfilesTube and hollow shapes for the architectural and general engineering markets are produced by the porthole extrusion process. In this process the seam welds are formed in the dies during the extrusion process. Although considerable tonnages of hollow shapes and tubing are regularly and successfully extruded and put to good use, it is possible for weld soundness to be adversely affected by process factors. In spite of all measures normally taken during extrusion to achieve sound welds, the weld quality may vary along the extruded length. Notwithstanding the successful use made regularly of hollow shapes and tubing produced by the port-hole extrusion method, it is not possible to guarantee such welds. Drift testing as described in the section of Technical Grade, can be performed and gives a reasonable degree of assurance of the seam weld quality. However, this test can only be carried out on the ends of hollow profiles and tubes. Where physical injury or danger can result from seam weld

failure, e.g. hang glider tubing, yacht masts, drift testing is recommended. Where tubing is required to contain pressu-rised fluids, pressure testing is recommended before use.

Lengths

Maximum lengthsThe normal maximum straight length is 12 metres but 14,5 metre lengths may be available, subject to enquiry and de-pendent on transport conditions. Maximum length may also be limited by the maximum mass of section that can be supplied.

Minimum lengthsPieces less than 500 mm in length are generally available but are subject to enquiry.

Random lengthsWhere customer accepts random lengths and orders are en-dorsed accordingly, between 3 metres and 8 metres will be supplied. It is possible to supply most of an order to a length suitable to the customer within this range, and the balance only in random lengths.

Multiple LengthsSections can be supplied in multiples of the required unit length. In calculating the overall length an allowance of 5mm must be made for each saw cut.

Specified LengthsWhen a specified length is ordered, all lengths will be cut to specification within the limits of the length tolerance.

GeneralProducts outside the limits outlined below will be subject to enquiry.

Tubing and Hollow SectionsMaximum LimitsMaximum Wall Thickness 12,0 mm Maximum Mass per Metre 13,0 kg/m

Minimum LimitsMinimum Tube Wall Thickness 1,2 mmMinimum Tube outside Diameter 10,0 mm

12Hulamin Extrusions Standard Profile Catalogue October 2012

Content

Rod and Bar

Maximum Limits for Normal ExtrusionMaximum Diameter 80 mm (area 5 000 mm)

Maximum Limits for Extrusion of Forging StockMaximum Diameter 100 mm (area 7 850 mm)

Spreader SectionsAll spreader sections are prone to defective areas at the front and back of each extruded length (apart from the front of the very first billet during a production run), which necessitates the removal of a rejection of up to 3 meters of metal from the front and 1 meter from the back end of the pressed lengths.

Maximum Mass per Metre = 13,6 kg/mMaximum Length of a 13,6 kg/m section = 3,6 me.g. Maximum Length of a 10 kg/m section = 6,5 mMaximum Useable Billet Mass (length 910 mm) = 105 kg

Important: Due to high mass per metre, profiles greater than 12 kg/m will be supplied in Technical Grade only.

Forms of CorrosionOne of the principal reasons for choosing aluminium and its alloys for construction applications is their high corrosion resistance. Although aluminium is a chemically active metal, its behaviour is stabilised by the formation of a protective film of oxide on the surface. Generally, this film is stable in aqueous solutions with pH 4.5 8.5. Further considerations need to be made if the pH exceeds these limits or the environ-ment contains chloride.

Although generally very stable, the most common types of corrosion, which can occur on aluminium alloys, are summarised below:

Uniform attackThe corrosion proceeds homogeneously over the whole sur-face of the metal. With aluminium and its alloys this type of corrosion is mainly seen in very alkaline or acid environments where the solubility of the natural oxide film is high.

Pitting corrosionPitting corrosion is the most common type of corrosive pheno-mena with light alloys, and is characterised by local discon-tinuities in the oxide film, i.e. locally reduced film thickness, rupture, localised concentrations of impurities/alloying ele-ments, etc. Aluminium is sensitive to pitting when chloride ions are present (e.g. sea water). Pits develop at weak spots in the surface films and at sites where the oxide film is mechani-cally damaged.

Pitting can penetrate several millimetres during a short period of time if the surrounding conditions are extremely unfavour-able. The pits can be of different shapes, wide or narrow. The narrow pits can often be dangerous since the pits could be deep and difficult to detect.

The correct choice of alloy and surface treatment e.g. anodis-ing, powder coating, coating with anodic layer (Zn), cathodic protection with sacrificial anodes or applied current, or by use of inhibitors, are methods which can be used to limit or prevent pitting corrosion. Frequent cleaning, as well as ventila-tion of dense constructions and a profile design avoiding accumulation of stagnant water, are recommended.

Intergranular corrosion(IGC) is a selective corrosion around the grains and in the ad-jacent zones without any appreciable attack on the grain itself. The reason for the IGC is a difference in corrosion potential between grain boundaries and the bulk of the immediately adjacent grains. The difference in potential may be caused by the difference in chemical composition between the two zones. This situation may for example develop as a result of slow cooling after the extrusion process.

In this case the grains will be larger and the intermetallic par-ticles will precipitate on the grain boundaries, thus increasing the potential difference between the grain boundaries and the interior of the grain.

Due to the low metal consumption, intercrystalline corrosion is difficult to detect visually and even less by measurements of weight loss. However, if the corrosion is permitted to propa-gate into the metal, the mechanical properties of the material will be severely deteriorated.

Alloys in 6000 series are normally resistant to IGC, however, this is dependent on the chemical composition. Recrystall-ised structures in addition to high content of Si or Cu, may give corrosion of this type. Addition of Mn/Cr will prevent or minimise recrystallisation. IGC of alloys in 7000 series is linked to MgZn precipitates, which are very anodic compared to aluminium.

One action to prevent IGC is the correct choice of alloy. In ad-dition, see the actions mentioned under Pitting Corrosion.

Crevice corrosionCrevice corrosion may occur in narrow crevices, filled with liquid (e.g. water). Use of sealant prior to joining may prevent penetration of moisture. By use of correct profile design, it is possible to minimise the risk of crevice corrosion.

Water staining is a type of crevice corrosion and is caused by water or moisture entrapped between, for example, densely stacked profiles. Water staining is a very common corrosion type. The appearance varies from iridescent in mild cases, to white, grey or black in more severe instances. Water staining on profiles is normally removed by finishing (grinding) or pow-der coating.

Profiles without any surface treatment should never be stored outdoors, even though plastic wrapping is used, because of risk of condensation. Storing should be carried out in places with a maximum relative humidity of RH 45 %, and a maxi-

mum temperature variation of 5C. During transportation from a cold to a warmer area, the temperature should be increased gradually to avoid condensation on the metal.

Galvanic corrosionGalvanic corrosion is the type of corrosion that occurs when two metallic materials are in contact in the presence of an electrolyte. Corrosion will increase on the least noble material (the anode) and decrease on the noblest (the cathode). Since aluminium is less noble than most commonly used construc-tion materials, with the exception of zinc, magnesium and cadmium, this can be a serious form of corrosion with alumi-nium.

The protective effect from the oxide layer can be seriously compromised by the coupling to a more noble material. This is especially dangerous in atmospheres or water with high concentrations of chlorides or other aggressive substances.

Most types of aluminium corrosion can be related to some

13 Hulamin Extrusions Standard Profile CatalogueOctober 2012

Content

kind of galvanic coupling with a dissimilar material.Galvanic corrosion can be avoided or minimised by means of the following actions:

If possible, avoid the use of materials far from each other in the galvanic potential difference series of the environ-ment where it will be used (stainless steel not included). However, if that is not a practical solution, the different material qualities have to be properly electrically insulated. It is important to use insulation material of proper electri-cal resistance and to avoid metallic contact in the entire construction. This can be checked by resistant measure-ments using a multimeter.

Aluminium may be protected by means of sacrificial anodes. The most noble material can be surface treated with e.g. a metallic coating (Al/Zn), organic coating, (lacquer, paint, plastic, rubber) or a special coating for screws and bolts. The surface treatment has to be carried out correctly, that means treatment shall not be done only on the less noble material. As a consequence, a defect in the surface coating may generate a very unfavourable cathode/anode ratio (a big cathode area in relation to a small anode area gives considerable corrosion). Galvanic corrosion in, combination with crevice corrosion, may give concentrated attacks. Based on that, it is important to avoid entrapment of water or other liquids in crevices between materials of varying nobleness.

Avoid transfer of ions of noble materials to aluminium sur-faces, for instance droplets from a copper tube on an alumi-nium surface will generate precipitation of copper metal. The result is corrosion of aluminium (deposition corrosion). The next step will be micro-galvanic corrosion between aluminium and the copper particles in the aluminium sur-face. Severe pitting may occur within a few weeks.

Filiform corrosion (FFC)Filiform corrosion on passivated surfaces exhibits itself as thin, threadlike and shallow attacks progressing below sur-face layers such as paint. The corrosion normally starts in coating defects (e.g. on mitres) and follows certain directions, like for example the extrusion direction. The front of the attack is supported by moisture, which penetrates the surface layer and becomes depleted of oxygen making the area anodic.

FFC is mainly an aesthetical problem, but corrosion products may cause deformation in narrow crevices or delamination of surface treatment. The extensive FFC attack observed during corrosion testing can be attributed to a reactive uppermost surface region showing an unpredictable chemical composi-tion, which may be formed during thermo-mechanical trans-formation of the alloy. It is proven that sufficient metal removal of aluminium 2 g/m by chemical etching prior to properly performed chromating is required. Providing this is done properly, aluminium extrusions in 6060/6063 will exhibit high FFC resistance.

Corrosion resistance in different environments

The atmosphereCorrosion is insignificant in clean country air. Aluminium does not corrode where there are high levels of sulphur dioxide but can under certain circumstances become dark or matt in appearance.

WaterPitting can occur in stagnant water. The composition of the water is the important factor as the presence of copper, cal-cium, chloride and bicarbonate ions increase the risk signifi-cantly. This can be prevented however by regular cleaning and drying. In this way the aluminium is highly suitable for making saucepans for example.

SeawaterAlloys containing silicon, magnesium and manganese show good resistance to corrosion in seawater. Copper alloys on the other hand should be avoided.

SoilThe resistance to corrosion is to a great degree dependent on the moisture in the soil and its pH. Aluminium surfaces in contact with the soil are best treated with a thick layer of bitumen or a powder coating.

AcidsThe majority of inorganic acids have a very corrosive effect on aluminium except nitric acid. High temperature, high acid concentrations and high levels of impurities in the level of the aluminium increase the rate of corrosion significantly.

AlkalisStrong alkalis are very corrosive. Sodium hydroxide reacts violently with aluminium. The rate of corrosion can be reduced in environments where the pH is between 9 and 11 by using silicates. Wet cement has a high pH and therefore corrodes aluminium alloys.

Organic compoundsAluminium is highly resistant to the majority of organic com-pounds. Corrosion can occur however with some anhydrous liquids.

Other materialIn practice the corrosion problem caused by the contact with other materials is for the most part small. The natural oxide layer provides protection.

Surface TreatmentIn its natural state, Aluminium has a clean and attractive sur-face with good corrosion resistance. There are a number of types of surface treatments that improve resistance to corro-sion and mechanical wear. They can also provide a decorative appearance or in other ways alter the properties of the surface.

AnodisingAnodising is an electrochemical process where the thickness of the oxide film on the aluminium surface is increased artifi-cially. The process involves lowering the extrusion into an elec-trolytic bath where a DC current is connected to the extrusion, which acts as the anode in the circuit. While the natural oxide film is only 0.02 um, anodising increases the oxide layer to between 5 and 25 um depending on the product characteristics required. With the anodising process, aluminium's natural colour (naturally anodized) can be retained or a colour from a wide range of alternatives can be chosen.

Powder coatingPowder coating offers a virtually unlimited choice of colours and is very durable.

Other methods of surface treatmentOther methods of surface treatment include screen printing and the use of protective foils. Grinding, polishing and barrel processing are examples of mechanical surface treatments.

14Hulamin Extrusions Standard Profile Catalogue October 2012

Content

Type 1

R1

A

A

TAngles

FinishPeri.

C.C.D. mm

Est. kg/m

Profile Number

Amm

Tmm

R1mm

15176 6.36 0.40 253 90 2.080

15363 8.00 0.76 254 91 2.600

63.50

64.00

15907 6.00 0.40 279 99 2.178

15485 3.00 0.50 299 106 1.194

15980 6.00 0.40 299 106 2.340

15735 2.00 0.50 303 107 0.812

15420 4.00 0.64 304 107 1.604

15832 3.18 0.40 304 108 1.286

15833 4.78 0.40 304 108 1.912

15834 6.35 0.40 304 108 2.513

15210 9.52 0.40 304 108 3.686

15178 12.70 0.76 303 108 4.807

15984 6.35 0.40 405 153 3.387

15994 9.53 0.40 405 143 5.001

70.00

75.00

75.00

76.00

76.00

76.20

76.20

76.20

76.20

76.20

101.60

101.60

15947 8.00 0.40 479 169 5.029

15856 12.00 0.40 479 170 7.414

150005

120.00

120.00

152.40 12.70 0.40 608 215 10.053

15906 4.00 0.40 199 70 1.040

15854 6.00 0.40 199 70 1.528

15993 1.59 0.40 202 72 0.431

15829 3.18 0.40 202 72 0.848

15830 4.76 0.40 202 72 1.249

15831 6.35 0.40 202 72 1.639

15174 9.52 0.76 201 72 2.374

150000 2.00 0.40 239 85 0.639

15575 2.50 0.40 239 85 0.796

15880 3.00 0.40 239 85 0.951

15572 4.00 0.40 239 85 1.257

15881 5.00 0.40 239 85 1.558

15872 6.00 0.40 239 85 1.853

50.00

50.00

50.80

50.80

50.80

50.80

50.80

60.00

60.00

60.00

60.00

60.00

60.00

15973 4.50 0.60 199 70 1.16450.00

15533 5.00 0.76 198 71 1.28650.00

150014 4.76 0.40 177 63 1.085

15913 4.00 0.40 179 64 0.932

44.45

45.00

15201 3.18 0.64 178 63 0.73944.45

15862

15879

15557

15532

15373

40.00

40.00

40.00

40.00

40.00

2.00

3.00

4.00

5.00

6.00

0.40

0.40

0.40

0.76

0.40

159

159

159

158

159

56

56

56

57

57

0.422

0.626

0.824

1.015

1.203

15137 12.70 1.60 0.76 49 18 0.102

15554 12.70 3.18 0.40 50 18 0.191

Peri.C.C.D.

mmEst.

kg/mProfile

NumberA

mmT

mmR1

mmFinish

150021 15.00 1.25 0.40 59 21 0.097

15579 15.00 1.50 0.40 59 21 0.115

15574 15.00 2.00 0.40 59 21 0.151

15565 15.00 3.00 0.40 59 21 0.219

15992 15.88 1.59 0.40 62 22 0.130

15297 19.04 1.60 0.40 76 27 0.158

15823 19.05 3.18 0.40 75 27 0.301

15145 19.06 3.18 0.30 76 27 0.301

150019 20.00 1.25 0.40 79 28 0.131

15578 20.00 1.50 0.40 79 28 0.156

15556 20.00 2.00 0.40 79 28 0.206

15859 20.00 3.00 0.40 79 28 0.300

15147 22.22 1.60 0.30 89 32 0.186

15148 22.22 3.18 0.64 89 31 0.355

150020 25.00 1.25 0.40 99 35 0.165

150003 25.00 1.50 0.40 99 35 0.197

15359 25.00 1.60 0.30 99 36 0.210

15526 25.00 2.00 0.50 35 0.260

15871 25.00 3.00 0.40 99 35 0.382

15940 25.00 4.00 0.40 99 35 0.498

99

15192

15155

15824

15193

15825

15158

15527

15860

15529

15861

15901

15708

15585

15826

15555

15163

15540

15970

15972

150007

15291

15827

15828

15164

25.40

25.40

25.40

25.40

25.40

25.40

30.00

30.00

30.00

30.00

30.00

31.75

31.75

31.75

31.75

31.76

35.00

38.00

38.00

38.10

38.10

38.10

38.10

38.00

1.52

2.38

3.18

4.75

4.78

6.36

2.00

3.00

3.00

4.00

5.00

1.60

2.60

3.18

4.76

6.36

3.00

3.00

6.00

1.60

2.04

3.18

4.78

1.14

0.25

0.64

0.40

0.63

0.40

0.40

0.50

0.40

0.76

0.40

0.40

0.30

0.40

0.40

0.40

0.40

0.50

0.40

0.40

0.40

0.76

0.40

0.40

0.55

101

102

101

102

101

101

119

119

118

119

119

126

126

126

126

126

139

151

151

151

151

151

151

151

36

36

36

36

36

36

42

42

42

42

42

44

45

45

45

45

50

53

54

54

54

54

54

54

0.203

0.311

0.410

0.595

0.596

0.766

0.314

0.463

0.462

0.607

0.745

0.268

0.429

0.517

0.757

0.985

0.544

0.593

1.138

0.323

0.408

0.629

0.925

0.231

15170 38.10 6.35 0.40 152 54 1.202

15372 40.00 1.60 0.40 159 27 0.340

Type 1 angles have legs of equal length and of equal thickness.The radii are all less than or equal to 0.80 mm.

15 Hulamin Extrusions Standard Profile CatalogueOctober 2012

2.00 0.40 199 50 0.53150.0015563

3.00 0.50 200 71 0.78850.0015733

3.18 0.64 252 90 1.06863.5015207

4.78 0.64 254 90 1.58063.5015206

Content

Type 2 Angles

Type 3

R1

R2

A

A

T

R1

R2

A

A

T

15949 50.00 5.00 1.20 1.20 197 70 1.284

15545 50.80 3.18 6.35 3.18 197 72 0.860

15546 50.80 4.76 6.35 3.18 197 72 1.260

15547 50.80 6.35 6.35 3.18 197 72 1.650

15543 76.20 6.35 7.93 6.35 295 108 2.503

15544 76.20 9.53 7.93 6.35 295 108 3.679

15135 101.60 6.36 9.52 6.36 396 144 3.399

15813 101.60 9.53 9.53 6.35 396 144 5.007

R2mm

FinishPeri.

C.C.D.mm

Est.kg/m

Profile Number

Amm

Tmm

R1mm

15103 38.10 4.74 5.34 0.64 150 54 0.938

15104 38.10 6.36 5.34 0.64 150 54 1.220

15110 50.80 3.18 6.10 0.64 204 72 0.872

15111 50.80 4.76 6.10 0.64 185 72 1.269

15112 50.80 6.36 6.10 0.64 199 72 1.662

15113 50.80 7.92 6.10 0.64 201 72 2.035

15119 63.50 7.92 6.86 0.64 250 90 2.582

15121 76.20 6.36 7.62 0.76 302 107 2.547

15122 76.20 7.96 7.62 0.64 300 108 3.148

15123 76.20 9.52 7.62 0.64 300 107 3.719

15125 88.90 6.36 8.38 0.64 351 126 2.994

15234 88.90 7.95 8.38 0.64 351 126 3.699

15127 88.90 9.52 8.38 0.64 351 126 4.381

15128 88.90 12.70 8.38 0.64 351 126 5.722

15130 101.60 9.52 9.14 0.64 401 144 5.044

15132 127.00 9.52 10.66 0.76 502 180 6.372

15294 127.00 12.70 6.36 0.76 504 180 8.327

15286 152.40 9.52 12.18 0.76 603 216 7.703

15287 152.40 12.70 12.18 0.76 603 216 10.138

R2mm

FinishPeri.

C.C.D.mm

Est.kg/m

Profile Number

Amm

Tmm

R1mm

Type 2 angles have legs of equal length and of equal thickness.The radii are all greater than 0.80 mm.

Type 3 angles have legs of equal length and of equal thickness.The inside corner radius is greater than 0.80 mm.Other radii are less than or equal to 0.80 mm.

16Hulamin Extrusions Standard Profile Catalogue October 2012

Content

AnglesR1

A

B

TType 4 angles have legs of unequal length but of equal thickness.The radii are all less than or equal to 0.80 mm.

17 Hulamin Extrusions Standard Profile Catalogue

Type 4

15408 15.88 9.52 1.60 0.64 49 18 0.102

15441 19.06 9.54 2.38 0.76 55 22 0.168

15038 19.06 12.70 1.58 0.76 62 23 0.128

15039 19.06 12.70 3.18 0.64 62 23 0.247

15322 20.00 9.00 3.00 0.50 58 24 0.211

15909 20.00 10.00 2.00 0.40 59 22 0.151

15885 20.00 15.00 2.00 0.40 69 25 0.179

15041 22.22 7.96 3.18 0.30 60 23 0.232

15042 22.22 9.52 1.60 0.76 62 24 0.129

150027 25.00 10.30 1.30 0.50 69 27 0.119

15347 25.00 12.50 1.50 0.30 74 28 0.146

15928 25.00 15.00 2.00 0.40 79 29 0.206

15985 25.00 20.00 3.00 0.40 89 32 0.341

15241 25.40 12.70 1.60 0.64 75 28 0.157

15050 25.40 12.70 3.18 0.25 76 29 0.301

15051 25.40 15.88 1.60 0.64 83 30 0.172

15264 25.40 15.88 3.18 0.64 83 30 0.329

15731 30.00 10.00 2.00 0.25 79 31 0.206

15567 30.00 15.00 2.00 0.40 89 33 0.233

15558 30.00 15.00 3.00 0.40 89 34 0.341

15875 30.00 20.00 2.00 0.40 99 36 0.259

15559 30.00 20.00 3.00 0.40 99 36 0.382

15926 30.00 20.00 4.00 0.40 99 36 0.498

15057 31.76 19.06 3.18 0.40 102 37 0.410

15058 31.76 25.40 3.18 0.64 113 40 0.465

15882 35.00 20.00 3.00 0.40 109 40 0.422

15061 38.10 12.70 3.18 0.64 102 40 0.409

15837 38.10 19.05 3.18 0.40 113 43 0.465

15838 38.10 25.40 3.18 0.40 126 46 0.519

15845 38.10 25.40 4.75 0.50 126 46 0.756

15581 40.00 10.00 2.00 0.40 99 41 0.258

150002 40.00 20.00 1.60 0.40 119 44 0.253

15876 40.00 20.00 2.00 0.40 119 44 0.314

15886 40.00 20.00 3.00 0.40 119 44 0.463

15576 40.00 20.00 4.00 0.40 119 45 0.607

15950 40.00 25.00 2.00 0.40 129 47 0.341

15986 40.00 25.00 3.00 0.40 129 47 0.504

15931 40.00 30.00 2.00 0.40 139 50 0.368

15562 40.00 30.00 3.00 0.40 139 50 0.544

15258 44.46 19.05 3.18 0.64 127 48 0.520

FinishPeri.

C.C.D.mm

Est.kg/m

Profile Number

Amm

Bmm

Tmm

R1mm

15236 12.70 9.53 1.57 0.64 45 16 0.087

15346 12.70 6.35 1.40 0.30 37 14 0.066

150018 38.00 25.00 3.00 0.40 125 45 0.487

15064 44.46 22.22 2.04 0.64 132 50 0.356

15065 44.46 22.22 3.18 0.76 132 50 0.545

15067 44.46 38.10 3.18 0.76 163 59 0.683

15892 45.00 20.00 3.00 0.40 129 49 0.504

15339 46.00 17.00 2.00 0.50 125 49 0.330

15308 46.00 34.00 3.00 0.76 158 57 0.625

15523 48.00 25.00 2.00 0.50 146 54 0.385

15877 50.00 20.00 2.00 0.40 139 54 0.368

15937 50.00 20.00 3.00 0.40 139 54 0.544

150012 50.00 25.00 1.60 0.40 149 56 0.318

October 2012

15987 50.00 25.00 3.00 0.40 149 56 0.585

Content

Type 4AnglesR1

A

B

TType 4 angles have legs of unequal length but of equal thickness.The radii are all less than or equal to 0.80 mm.

18Hulamin Extrusions Standard Profile Catalogue

15924 60.00 40.00 3.00 199 72 0.788

15929 60.00 40.00 4.00 199 72 1.041

15888 60.00 40.00 5.00 200 72 1.287

15959 60.00 40.00 6.00 199 72 1.528

15899 60.00 50.00 2.00 219 78 0.585

15570 60.00 50.00 4.00 219 79 1.148

15078 63.50 25.40 3.18 178 68 0.731

150010 63.50 38.10 3.18 202 74 0.848

15903 63.50 38.10 4.76 202 74 1.249

15989 63.50 38.10 6.35 202 74 1.639

15262 63.50 50.80 6.36 229 81 1.860

15375 70.00 50.00 1.50 239 86 0.482

150025 70.00 60.00 2.00 258 92 0.693

15348 75.00 20.00 5.00 189 78 1.219

15520 75.00 25.00 2.00 200 79 0.531

15999 75.00 50.00 3.00 249 90 0.991

15517 75.00 50.00 4.00 249 90 1.311

15571 50.00 30.00 2.00 159 58 0.422

15932 50.00 30.00 3.00 159 58 0.626

15933 50.00 30.00 4.00 159 58 0.824

15564 50.00 40.00 3.00 179 64 0.707

15073 50.80 25.40 2.02 152 57 0.409

15976 50.80 12.70 3.18 126 52 0.519

15839 50.80 19.05 3.18 139 54 0.574

15840 50.80 25.40 3.18 151 57 0.629

15849 50.80 25.40 4.76 151 57 0.921

15841 50.80 38.10 3.18 177 64 0.738

15902 50.80 38.10 4.76 177 63 1.086

15894 55.00 15.00 2.00 139 57 0.368

15927 60.00 15.00 2.00 149 62 0.395

15582 60.00 25.00 2.00 169 65 0.449

15923 60.00 25.00 2.50 169 65 0.559

15857 60.00 30.00 3.00 179 67 0.707

15953 60.00 30.00 4.00 179 67 0.932

15248 50.80 25.40 1.60 151 56 0.322

15075 50.80 25.40 6.36 152 57 1.204

15573 60.00 30.00 5.00 179 67 1.151

15969 75.00 50.00 6.00 249 90 1.935

15569 76.00 22.00 1.50 195 79 0.392

15504 76.00 22.00 2.00 196 79 0.520

15355 76.00 38.00 2.00 227 85 0.606

15421 76.20 25.40 2.03 203 80 0.548

15842 76.20 25.40 3.18 202 80 0.848

15085 76.20 38.10 3.18 228 85 0.957

15252 76.20 38.10 4.74 229 85 1.410

15988 76.20 38.10 6.35 228 85 1.857

15843 76.20 50.80 3.18 253 92 1.067

150015 76.20 50.80 4.50 253 91 1.493

15263 76.20 50.80 6.35 252 91 2.078

FinishPeri.

C.C.D.mm

Est.kg/m

Profile Number

Amm

Bmm

Tmm

R1mm

15086 76.20 63.50 7.96 277 99 2.840

15936 80.00 20.00 2.00 199 82 0.531

15925 80.00 30.00 3.00 219 85 0.869

15920 80.00 40.00 3.00

0.40

0.40

0.40

0.40

0.40

0.50

0.76

0.40

0.40

0.40

0.64

0.30

0.60

0.30

0.50

0.40

0.50

0.40

0.40

0.40

0.40

0.76

0.50

0.40

0.40

0.40

0.40

0.40

0.40

0.40

0.40

0.40

0.40

0.40

0.64

0.76

0.40

0.40

0.40

0.40

0.50

0.76

0.40

0.30

0.64

0.40

0.40

0.40

0.64

0.76

0.40

0.40

0.40 239 89 0.951

October 2012

15870 80.00 40.00 4.00 0.40 239 89 1.257

Content

AnglesR1

A

B

T

Type 5

R1

R2

A

B

T

15852 63.50 50.80 4.76 6.35 3.18 222 81 1.425

15816 76.20 50.80 6.36 7.94 4.76 246 92 2.089

15333 100.00 75.00 5.00 2.00 2.50 346 125 2.298

15847 101.60 76.20 6.35 9.53 6.35 345 127 2.957

15819 127.00 76.20 9.53 9.53 7.94 395 148 4.981

15474 140.00 63.50 6.35 9.53 4.76 400 154 3.432

Profile Number

Amm

Bmm

Tmm

Est.kg/m

R1mm

R2mm

FinishPeri.

C.C.D.mm

15459 152.00 102.00 6.36 9.90 1.50 500 183 4.311

Type 4 angles have legs of unequal length but of equal thickness.The radii are all less than or equal to 0.80 mm.

Type 5 angles have legs of unequal length but of equal thickness.The radii are all greater than 0.80 mm.

19 Hulamin Extrusions Standard Profile Catalogue

15863 80.00 40.00 5.00 0.40 239 89 1.558

15356 100.00 35.00 3.00 0.50 269 105 1.072

15919 100.00 40.00 3.00 0.40 279 107 1.113

15878 100.00 50.00 3.00 0.40 299 112 1.195

15518 100.00 50.00 4.00 0.76 300 112 1.580

15858 100.00 50.00 5.00 0.40 299 112 1.964

15887 100.00 50.00 6.00 0.40 299 112 2.341

15900 100.00 70.00 2.00 0.40 339 122 0.910

15844 101.60 50.80 3.18 0.40 304 114 1.286

15977 101.60 50.80 6.35 0.40 304 113 2.513

150008 101.60 76.20 6.35 0.40 355 127 2.950

15524 110.00 25.00 2.00 0.50 270 113 0.721

15519 115.00 25.00 2.00 0.50 280 118 0.748

15962 120.00 60.00 8.00 0.40 359 133 3.728

15944 120.00 80.00 3.00 0.40 399 144 1.601

15943 120.00 100.00 4.00 0.40 439 156 2.341

15290 127.00 50.00 2.00 0.76 352 136 0.947

15971 130.00 100.00 8.00 0.50 459 164 4.812

15952 150.00 50.00 4.00 0.40 399 158 2.124

150017 150.00 50.00 6.00 0.50 399 158 3.154

15958 150.00 100.00 10.00 0.40 499 180 6.504

150006 152.40 76.20 6.35 0.40 456 170 3.824

15983 152.40 76.20 9.53 0.40 456 170 5.657

15587 110.00 55.00 2.80 0.50 328 123 1.230

15379 120.00 50.00 3.00 0.50 339 130 1.357

FinishPeri.

C.C.D.mm

Est.kg/m

Profile Number

Amm

Bmm

Tmm

R1mm

Type 4

October 2012

Content

Type 6 AnglesR1

A

B

T

R2

15002 38.10 25.40 3.18 5.08 0.64 123 46 0.519

15214 50.80 25.40 3.18 5.33 0.64 150 57 0.646

15272 50.80 38.10 6.34 6.34 0.76 173 64 1.440

15216 63.50 38.10 3.18 6.10 0.64 201 74 0.869

15010 63.50 50.80 3.18 6.60 0.64 226 81 0.983

15012 63.50 50.80 6.36 6.60 0.64 224 81 1.885

15013 76.20 25.40 6.36 7.92 0.64 198 81 1.677

15016 76.20 50.80 6.36 6.86 0.64 250 92 2.106

15017 76.20 50.80 7.96 6.36 0.64 250 85 2.594

15225 88.90 63.50 9.54 7.62 0.64 302 109 3.726

15228 88.90 76.20 12.70 8.13 0.64 325 117 5.282

15271 101.60 50.80 9.52 8.12 0.76 300 114 3.723

15024 101.60 63.50 6.36 8.12 0.64 327 120 2.774

15025 101.60 76.20 9.52 8.38 0.64 351 127 4.381

15027 127.00 76.20 9.52 9.14 0.64 401 148 5.037

15350 150.00 45.00 5.00 5.00 0.50 387 157 2.588

15028 152.40 76.20 9.52 9.90 0.64 452 170 5.708

15231 152.40 76.20 12.70 9.90 0.64 451 170 7.486

15457

15486

152.40

228.60

88.90

76.20

9.52

6.34

10.42

12.96

0.76

0.64

487

603

176

241

6.037

5.225

Est.kg/m

R1mm

R2mm

FinishPeri.

C.C.D.mm

Profile Number

Amm

Bmm

Tmm

15011 63.50 50.80 9.52 7.96 0.76 224 81 2.738

15227 88.90 76.20 7.94 8.13 0.64 325 117 3.417

Type 13

R1

R3

A

B

T

R2

15295 25.40 25.40 2.39 0.76 2.39 1.19 99 35 0.301

15323 54.00 25.00 3.00 5.00 0.50 8.00 152 60 0.594

15996 190.50 76.20 12.70 12.20 1.00 1.00 526 205 8.826

C.C.D.mm

Est.kg/m

R1mm

R2mm

R3mm

FinishPeri.

Profile Number

Amm

Bmm

Tmm

15341 22.00 16.00 3.00 0.50 1.00 1.00 74 27 0.281

Type 6 angles have legs of unequal length but of equal thickness.The inside corner radius is greater than 0.80 mm.Other radii are less than or equal to 0.80 mm.

Type 13 angles have legs of unequal length but of equal thickness.The inside corner radius and radii on legs may be greater than 0.80 mm.The external corner radius is greater than 0.80 mm.

20Hulamin Extrusions Standard Profile Catalogue October 2012

Content

Type 1 ChannelsA T1

T1

B

R1Type 1 channels are of a uniform thickness with all radii less than or equal to 0.80 mm.

21 Hulamin Extrusions Standard Profile Catalogue

16007 9.52 9.52 1.60 0.76 51 13 0.109

16008 9.52 12.70 1.60 0.76 67 16 0.138

16502 9.52 19.06 1.58 0.50 90 21 0.190

16009 10.00 10.00 1.50 0.26 54 14 0.110

16895 10.00 10.00 2.00 0.40 55 14 0.141

16472 12.00 10.00 1.50 0.40 60 16 0.117

16016 12.70 9.52 1.52 0.76 51 16 0.117

16214 12.70 12.70 1.52 0.76 71 18 0.146

16018 12.70 12.70 2.00 0.76 70 18 0.183

16020 12.70 12.70 3.18 0.64 68 18 0.273

16824 12.70 19.05 3.18 0.40 94 23 0.383

16473 15.00 10.00 1.50 0.40 66 18 0.130

16465 15.00 15.00 1.50 0.40 86 21 0.170

16885 15.00 15.00 2.00 0.40 85 21 0.222

16026 15.87 12.70 1.63 0.76 79 20 0.168

16027 15.88 15.80 1.60 0.40 91 23 0.192

160042 15.88 15.88 3.18 0.40 88 22 0.355

16028 16.44 15.88 1.28 0.64 92 23 0.157

160037 17.00 20.00 1.45 0.40 110 26 0.212

16348 19.00 20.00 1.50 0.50 115 28 0.230

16223 19.05 19.05 3.18 0.64 106 27 0.438

16031 19.00 12.70 1.60 0.76 83 23 0.178

16032 19.05 12.70 3.17 0.64 83 23 0.324

16464 20.00 10.00 2.00 0.40 75 22 0.195

16341 20.00 15.00 2.00 0.50 96 25 0.249

16867 20.00 20.00 2.00 0.40 115 28 0.303

16035 20.66 19.84 1.98 0.76 114 28 0.301

16396 21.00 21.00 1.20 0.30 122 30 0.196

16902 21.00 25.00 2.50 0.50 135 33 0.446

16907 21.80 21.80 6.00 0.50 117 31 0.868

160027 22.22 22.22 3.17 0.50 125 31 0.518

16710 22.23 22.23 1.63 0.50 128 31 0.280

16357 22.61 69.85 1.78 0.50 320 73 0.765

16919 23.00 25.00 2.00 0.50 140 34 0.373

16220 23.17 23.17 1.27 0.38 138 33 0.232

16041 23.24 22.98 1.40 0.76 133 31 0.251

16043 23.82 50.80 1.60 0.64 245 56 0.528

16421 24.00 38.00 3.00 0.50 194 45 0.764

16923 25.00 12.00 1.50 0.50 93 28 0.186

16395 25.00 20.00 1.50 0.30 126 32 0.251

16428 25.00 20.00 3.50 0.20 123 32 0.550

16446 25.00 25.00 2.00 0.40 145 35 0.384

16448 25.00 25.00 3.00 0.40 143 35 0.561

16045 25.40 12.70 1.60 0.64 96 29 0.207

16825 25.40 12.70 3.18 0.40 94 29 0.383

R1mm

FinishPeri.

C.C.D.mm

Est.kg/m

Profile Number

Amm

B mm

T1mm

16397 19.00 21.00 1.20 0.50 118 28 0.190

16342 19.52 19.52 1.26 0.50 113 27 0.191

16048 25.40 15.88 1.60 0.64 111 30 0.234

16826 25.40 19.05 3.18 0.40 119 32 0.492

16827 25.40 25.40 3.18 0.40 145 36 0.601

16828 25.40 50.80 3.18 0.40 246 57 1.039

16881 25.70 23.60 1.60 0.50 141 35 0.302

160002 27.00 20.00 3.00 0.50 127 33 0.495

October 2012

16371 27.16 25.00 3.00 0.50 147 37 0.578

Content

22Hulamin Extrusions Standard Profile Catalogue

Type 1 ChannelsA T1

T1

B

R1Type 1 channels are of a uniform thickness with all radii less than or equal to 0.80 mm.

16339 29.00 12.70 1.20 0.50 106 32 0.169

16530 29.00 65.00 3.00 0.50 311 71 1.243

16056 29.84 15.88 3.18 0.76 117 34 0.475

16889 30.00 20.00 2.00 0.40 135 36 0.357

16449 30.00 30.00 3.00 0.40 173 42 0.683

16830 31.75 31.75 3.18 0.40 183 45 0.766

16059 31.76 12.70 3.18 0.64 106 34 0.438

16061 31.76 25.40 2.64 0.76 160 41 0.553

16384 32.00 12.00 1.50 0.50 107 34 0.214

16067 32.20 19.04 1.56 0.64 135 37 0.282

160014 35.20 100.00 2.00 0.50 465 106 1.253

16568 36.00 15.48 1.40 0.20 129 39 0.241

16372 38.00 25.00 2.00 0.20 171 45 0.455

16408 38.00 50.00 6.00 0.25 264 63 2.049

16832 38.10 19.05 3.18 0.40 145 43 0.601

16833 38.10 25.40 3.18 0.40 170 46 0.711

16834 38.10 38.10 3.18 0.40 221 54 0.930

160035 38.10 38.10 6.35 0.40 215 54 1.748

16426 39.20 32.00 1.70 0.76 200 51 0.458

16450 40.00 20.00 2.00 0.40 155 45 0.412

16463 40.00 32.00 3.00 0.50 200 51 0.796

16890 40.00 40.00 3.00 0.40 233 56 0.926

16383 42.00 25.00 2.00 0.50 178 49 0.476

16462 43.00 50.00 2.00 0.50 280 66 0.752

160043 44.00 17.00 2.00 0.30 151 47 0.401

16092 44.02 28.58 1.78 0.76 196 52 0.469

160044 44.10 19.00 1.57 0.30 159 48 0.334

16268 44.44 15.88 1.62 0.76 146 47 0.317

16094 44.46 25.40 3.18 0.76 182 51 0.765

16831 38.10 12.70 3.18 0.30 119 40 0.492

16460 40.00 20.20 8.00 0.50 143 44 1.395

16332 48.51 12.70 1.60 0.30 145 50 0.305

16423 48.90 19.06 1.80 0.50 168 52 0.406

16461 49.00 40.00 2.00 0.50 251 63 0.675

16588 50.00 25.00 1.50 0.50 195 56 0.394

16451 50.00 30.00 3.00 0.40 213 58 0.845

160034 50.00 50.00 3.00 0.40 293 70 1.170

160003 50.00 50.00 4.00 0.40 291 70 1.539

16110 50.80 14.48 1.78 0.76 153 53 0.366

16836 50.80 25.40 3.18 0.40 195 57 0.820

16882 50.80 25.40 4.76 0.40 192 57 1.188

16872 50.80 25.40 6.35 0.40 189 57 1.529

160029 50.80 38.10 6.35 0.40 240 63 1.967

16856 50.80 50.80 3.18 0.40 297 72 1.258

16837 50.80 50.80 6.35 0.40 291 72 2.404

16369 51.60 25.90 1.80 0.50 203 58 0.486

16413 47.31 19.06 1.43 0.50 166 51 0.319

16927 50.00 23.00 2.00 0.50 186 56 0.498

R1mm

FinishPeri.

C.C.D.mm

Est.kg/m

Profile Number

Amm

B mm

T1mm

16119 59.54 21.60 3.30 0.76 196 63 0.858

16452 60.00 20.00 2.00 0.40 195 63 0.520

16870 60.00 40.00 3.00 0.40 273 72 1.089

16869 55.00 50.00 2.00 0.40 305 74 0.818

October 2012

16398 60.00 40.00 4.00 0.30 271 73 1.430

16874 60.00 40.00 5.00 0.40 269 72 1.761

Content

23 Hulamin Extrusions Standard Profile Catalogue

Type 1 ChannelsA T1

T1

B

R1Type 1 channels are of a uniform thickness with all radii less than or equal to 0.80 mm.

16457 60.00 50.00 3.00 0.40 313 78 1.252

16458 60.00 60.00 3.00 0.40 353 85 1.414

16841 63.50 38.10 3.18 0.40 272 74 1.149

16453 65.00 25.00 2.50 0.40 224 69 0.745

16447 70.00 35.00 3.00 0.40 273 78 1.089

16406 70.50 17.00 2.00 0.50 204 73 0.544

160045 71.00 40.00 4.00 0.50 292 81 1.549

160024 75.00 50.00 6.00 0.40 337 90 2.650

16434 76.00 20.00 1.50 0.50 227 79 0.459

16281 76.20 14.30 1.60 0.64 203 78 0.441

16248 76.20 25.40 3.18 0.64 248 80 1.037

16126 76.20 38.10 3.18 0.64 298 85 1.258

160030 76.20 38.10 4.76 0.40 294 85 1.843

160039 76.20 38.10 6.36 0.40 291 85 2.407

16127 76.20 44.46 3.18 0.64 324 88 1.367

160038 76.20 50.80 3.18 0.40 348 91 1.477

16880 76.20 50.80 6.35 0.40 342 91 2.841

16587 80.00 35.00 2.00 0.50 296 87 0.791

16876 100.00 40.00 3.00 0.40 353 108 1.414

16879 86.00 40.00 3.00 0.40 325 95 1.300

16597 90.00 20.00 3.00 0.50 252 92 1.008

16477 96.10 19.80 1.50 0.50 267 98 0.539

16877 100.00 50.00 5.00 0.40 389 112 2.574

16133 101.60 50.80 3.18 0.78 397 113 1.695

160032 101.60 50.80 6.00 0.40 393 113 3.109

16911 104.00 42.00 2.00 0.50 370 112 0.997

160006 105.00 38.00 2.00 0.50 356 111 0.959

16801 108.74 44.45 3.17 0.78 386 117 1.642

16135 111.24 38.10 4.56 0.76 363 118 2.208

16865 120.00 45.00 10.00 0.40 399 128 5.149

16570 125.00 45.00 3.18 0.80 421 132 1.797

160041 127.00 34.93 9.53 0.75 372 131 4.591

16140 139.70 18.26 2.38 0.64 346 141 1.105

160040 152.40 76.20 4.76 0.40 599 170 3.809

16556 158.75 50.80 3.18 0.80 512 166 2.190

160016 175.00 45.00 2.25 0.50 524 181 1.588

16868 180.00 64.00 4.00 0.40 607 191 3.252

63.50 25.40 3.18 0.40 221 68 0.930160036

16414 80.75 24.22 2.00 0.64 252 84 0.676

16129 82.55 38.10 2.38 0.64 311 91 0.997

140.00 40.00 8.00 0.50 422 146 4.422160055

R1mm

FinishPeri.

C.C.D.mm

Est.kg/m

Profile Number

Amm

B mm

T1mm

October 2012

Content

ChannelsA T2

T1

B

R1

Type 2

16806 8.50 22.00 2.00 1.50 0.75 99 24 0.207

16148 15.88 23.02 8.74 3.96 0.64 106 28 0.682

16150 25.40 22.22 3.18 1.60 0.64 133 34 0.385

16118 58.82 25.40 3.30 3.03 0.76 210 64 0.889

Est.kg/m

T2mm

R1mm

FinishPeri.

C.C.D.mm

Profile Number

Amm

Bmm

T1mm

Type 3

A T2

T1

B

R1R2

16303 16.36 15.68 1.60 1.60 3.00 0.76 88 23 0.202

16443 50.80 25.40 3.30 3.30 2.54 0.60 193 56 0.856

16197 50.80 31.75 6.35 6.35 3.18 0.64 216 60 1.760

16178 63.50 26.18 3.18 3.18 1.58 0.67 223 69 0.945

16386 64.00 35.00 2.00 2.00 1.00 0.50 262 72 0.704

160013 72.22 35.00 3.18 3.18 3.18 0.64 274 80 1.181

16155 76.20 38.10 6.35 7.93 7.62 0.64 285 86 2.744

16185 93.86 22.22 1.78 1.78 1.60 0.64 270 96 0.651

160022 101.60 50.80 6.35 7.94 9.15 0.50 385 114 3.758

16293 104.02 48.00 8.00 11.43 1.58 0.76 381 115 4.734

16236 127.00 50.80 6.36 7.96 9.14 0.64 442 137 4.105

16158 127.00 63.50 6.36 9.52 10.66 0.64 484 142 5.268

16266 130.00 60.00 4.00 6.00 6.00 0.76 485 143 3.270

16566 150.00 35.00 10.00 25.00 11.10 0.80 408 154 7.594

16235 152.40 50.80 6.36 7.96 9.14 0.64 493 161 4.543

16159 152.40 63.50 6.36 7.92 10.66 0.64 537 165 5.215

16289 152.40 76.20 6.36 9.52 12.18 0.64 585 170 6.401

16524 152.40 76.20 9.52 12.70 12.20 0.62 578 170 8.694

16539 177.80 50.80 6.36 9.52 9.14 0.76 536 185 5.455

16000 177.80 76.20 6.34 11.12 12.20 0.62 636 193 7.437

16234 177.80 88.90 7.92 12.70 13.72 0.64 683 199 9.608

16598 203.00 89.00 9.52 14.28 14.28 0.64 728 222 11.625

16541 203.20 65.02 11.84 11.84 12.70 0.80 630 213 10.100

16001 203.20 76.20 7.14 11.10 7.14 0.62 689 217 8.144

160023 203.20 76.20 9.52 12.70 12.20 0.64 680 217 10.004

Profile Number

Amm

Bmm

T1mm

C.C.D.mm

Est.kg/m

T2mm

R1mm

R2mm

FinishPeri.

160051 101.60 50.80 8.00 8.00 6.00 0.60 384 114 4.099

16538 228.60 76.20 9.52 12.70 12.20 0.76 731 241 10.658

Type 2 channels have the web and flanges of different thicknessesand all radii are less than or equal to 0.80 mm.

Type 3 channels may have the web and flanges of different thicknesses.The two inside corner radii are always greater than 0.80 mm.All other radii are less than or equal to 0.80 mm.

24Hulamin Extrusions Standard Profile Catalogue October 2012

Content

ChannelsA T2

T1

B

R1R2

R3

Type 4

16459 14.00 35.00 1.30 1.30 0.20 1.80 0.20 164 38 0.284

16518 29.46 25.40 2.04 2.04 1.14 3.18 1.02 153 39 0.409

16442 38.30 30.00 1.40 1.40 1.00 2.40 0.50 191 49 0.357

16412 54.60 13.00 1.20 1.20 3.00 4.20 0.25 156 56 0.245

160021 127.00 63.00 8.00 8.00 2.00 4.00 0.50 487 142 5.123

16583 150.00 100.00 10.00 10.00 7.50 1.00 15.00 671 180 8.744

154.40 50.80 4.76 6.35 9.14 1.00 1.00 488 161 3.644

FinishPeri.

C.C.D.mm

Est.kg/m

T2mm

R1mm

R2mm

R3mm

Profile Number

Amm

Bmm

T1mm

160054

11 88.90 44.46 38.12 3.18 3.18 6.36 3.18 3.18 2.38 331 89 1.748

76 139.70 38.10 101.62 3.18 3.18 3.18 3.18 6.36 3.18 408 140 1.733

Profile Number

Amm

FinishPeri.

C.C.D.mm

Cmm

T1mm

Bmm

T2mm

T3mm

R1mm

R2mm

R3mm

Est.kg/m

Type 5

Type 5 channels may have the web and flanges of different thicknesses. The radii on both the inside and outside corners of the channel are greater than 0.80 mm.The radii of the legs are less than or equal to 0.80 mm.

Type 7

A

C

T1

T2

T3

B R3

R2R1

A T2

T1

B

R1R2

R3

16327 31.25 23.80 1.60 1.60 0.78 2.36 0.80 152 40 0.321

16326 34.93 25.40 1.60 1.60 0.78 2.36 0.80 166 43 0.351

16817 51.00 50.00 3.00 3.00 2.00 0.50 5.00 293 71 1.154

16522 76.20 50.80 6.34 6.34 6.34 0.76 12.70 325 92 2.702

FinishPeri.

C.C.D.mm

Est.kg/m

T2mm

R1mm

R2mm

R3mm

Profile Number

Amm

Bmm

T1mm

16267 200.02 88.90 11.12 11.12 13.72 0.76 13.72 709 219 10.731

Type 4 channels may have the web and flanges of different thicknesses.The radii on both the inside corners of the channel and inside cornersof the legs are greater than 0.80 mm.

Type 7 channels are sometimes referred to as top hats. The web, flanges and legsmay differ in thickness. They usually have a radius on the inside of the angle formedbetween the web and flange and between the flange and legs.The radii of the legs are less than or equal to 0.80 mm.

25 Hulamin Extrusions Standard Profile CatalogueOctober 2012

Content

Channels Type 11 Type 11 channels are sometimes referred to as C sections. The web, flanges and feet may alldiffer in thickness. They usually have a radius on the inside of the angle formed between theweb and flange and the flange and the feet. Other radii are less than or equal to 0.80 mm.

A

T2

T1

B

CR1R2

16340 12.70 12.70 5.50 1.28 1.28 0.50 0.50 80 18 0.139

282 22.24 9.54 9.52 2.04 2.04 0.78 0.64 89 24 0.235

16926 30.00 9.00 12.00 2.00 2.00 0.50 0.50 117 32 0.314

16900 30.00 9.20 11.30 2.35 2.35 0.50 1.18 116 32 0.364

16910 35.00 18.00 20.00 2.00 2.00 0.50 1.00 156 39 0.420

H448 38.10 28.58 12.70 3.18 3.18 0.76 0.76 218 48 0.930

16942 41.60 4.10 35.60 1.30 1.30 0.30 0.30 102 42 0.178

16930 110.00 65.00 70.00 3.00 3.00 0.50 0.50 539 123 2.178

Est.kg/m

Profile Number

Amm

Bmm

T1mm

T2mm

R1mm

R2mm

Cmm

FinishPeri.

C.C.D.mm

26Hulamin Extrusions Standard Profile Catalogue October 2012

Content

Extruded RodsAn extruded rod, or round bar, is a solid which is circular in shape.

A

6.00 19 6 0.077

8.00 25 8 0.136

9.00 28 9 0.172

10.00 31 10 0.213

11.00 35 11 0.258

12.00 38 12 0.305

12.70 40 13 0.343

13.00 41 13 0.360

14.00 44 14 0.417

15.00 47 15 0.479

16.00 50 16 0.545

18.00 57 18 0.690

19.00 60 19 0.768

20.00 63 20 0.851

21.00 66 21 0.939

22.00 69 22 1.030

23.00 72 23 1.126

25.00 79 25 1.330

25.40 80 25 1.373

26.00 82 26 1.439

27.00 85 27 1.552

28.00 88 28 1.669

29.00 91 29 1.790

30.00 94 30 1.916

Amm

FinishPeri.

C.C.D.mm

Est.kg/m

6.36 20 6 0.086

9.52 30 10 0.193

14.20 45 14 0.429

18.50 58 19 0.728

28.58 90 29 1.739

31.00 97 31 2.045

32.00 101 32 2.180

31.75 100 32 2.146

33.00 104 33 2.318

35.00 110 35 2.607

Amm

FinishPeri.

C.C.D.mm

Est.kg/m

36.00 113 36 2.758

65.00 204 65 8.993

38.10 120 38 3.090

40.00 126 40 3.405

42.00 132 42 3.755

44.00 138 44 4.121

44.45 140 44 4.205

45.00 141 45 4.310

46.00 145 46 4.504

48.00 151 48 4.904

50.00 157 50 5.321

50.80 160 51 5.493

54.00 170 54 6.207

55.00 173 55 6.439

57.15 180 57 6.952

60.00 188 60 7.662

63.00 198 63 8.448

70.00 220 70 10.429

71.00 223 71 10.729

72.00 226 72 11.034

75.00 236 75 11.972

76.20 239 76 12.359

80.00 251 80 13.622

41.28 130 41 3.627

27 Hulamin Extrusions Standard Profile CatalogueOctober 2012

Content

W.T.

A

Extruded Tubes

* Alloy 6063 only.

O.D.mm

W.T.mm

Anod.Peri.

Est.kg/m

C.C.D.mm

PaintPeri.

9.52

10.00

10.00

12.00

12.00

12.00

12.70

12.70

12.70

12.70

12.70

14.00

14.00

15.00

15.00

15.88

15.88

15.88

15.88

16.00

16.00

16.00

16.00

16.00

18.00

18.00

19.00

19.00

19.06

19.06

19.06

19.06

19.06

20.00

20.00

20.00

20.00

22.00

22.00

22.00

22.00

22.22

22.22

22.22

22.22

25.00

25.00

25.00

25.00

6.00

7.96

8.00

9.52

25.00

1.22*

1.22*

1.50

1.00*

2.00

3.50

1.22*

1.62

2.04

2.64

3.25

1.22*

1.80

1.50

2.00

1.22*

1.62

2.00

3.18

1.20*

1.50

2.00

2.75

4.00

1.22*

1.75

1.50

3.20

1.22*

1.62

2.00

3.18

4.53

1.20*

2.00

3.00

6.00

1.50

2.00

2.50

6.60

1.22*

1.62

2.74

3.18

1.20*

1.62

2.00

3.00

1.50

1.20*

1.00*

0.92*

4.00

0.086

0.091

0.109

0.094

0.170

0.253

0.119

0.153

0.185

0.226

0.261

0.133

0.187

0.172

0.221

0.152

0.197

0.236

0.344

0.151

0.185

0.238

0.310

0.408

0.174

0.242

0.223

0.430

0.185

0.240

0.290

0.430

0.560

0.192

0.306

0.434

0.715

0.262

0.340

0.415

0.865

0.218

0.284

0.454

0.515

0.243

0.322

0.391

0.562

0.057

0.069

0.060

0.067

0.715

10

10

10

12

12

12

13

13

13

13

13

14

14

15

15

16

16

16

16

16

16

16

16

16

18

18

19

19

19

19

19

19

19

20

20

20

20

22

22

22

22

22

22

22

22

25

25

25

25

6

8

8

10

25

30

31

31

38

38

38

40

40

40

40

40

44

44

47

47

50

50

50

50

50

50

50

50

50

57

57

60

60

60

60

60

60

60

63

63

63

63

69

69

69

69

70

70

70

70

79

79

79

79

19

25

25

30

79

41

43

42

53

50

46

56

55

53

52

50

62

60

66

64

71

70

69

65

72

71

69

67

63

81

79

85

79

86

85

84

80

76

90

88

85

75

99

97

96

83

101

100

96

95

114

113

112

108

24

34

35

42

105

An extruded tube is a hollow of uniform thickness in the shape of a circle.1Anodising Perimeter = Outside perimeter + / Inside perimeter.2

28Hulamin Extrusions Standard Profile Catalogue

1.50

1.62

2.00

2.64

3.18

4.76

5.20

6.35

1.50

6.55

1.62

2.50

3.98

1.15*

1.50

2.00

2.50

3.00

4.00

5.00

8.00

1.40*

1.62

3.18

6.35

8.25

1.22*

1.10*

1.35*

1.22*

1.50

2.00

2.50

3.00

4.25

6.00

1.60

2.00

3.00

1.50

1.62

2.02

3.18

4.06

5.95

6.36

1.65

2.00

2.50

3.00

3.18

4.00

5.00

115

115

113

111

110

105

103

100

127

111

130

127

122

138

137

135

134

132

129

126

116

145

145

140

130

92

116

116

146

145

143

141

137

132

161

160

159

156

175

175

174

173

170

167

161

160

183

182

181

179

179

176

173

25

25

25

25

25

25

25

25

28

28

29

29

29

30

30

30

30

30

30

30

30

32

32

32

32

25

25

25

32

32

32

32

32

32

35

35

35

35

38

38

38

38

38

38

38

38

40

40

40

40

40

40

40

0.305

0.328

0.398

0.511

0.601

0.836

0.894

1.029

0.338

1.196

0.372

0.555

0.833

0.282

0.364

0.477

0.585

0.689

0.885

1.064

1.498

0.362

0.415

0.773

1.373

1.176

0.251

0.227

0.389

0.511

0.628

0.740

1.004

1.328

0.387

0.455

0.562

0.817

0.383

0.467

0.503

0.620

0.945

1.176

1.628

1.718

0.538

0.647

0.798

0.945

0.996

1.225

1.489

25.40

25.40

25.40

25.40

25.40

25.40

25.40

25.40

28.00

28.00

28.58

28.58

28.58

30.00

30.00

30.00

30.00

30.00

30.00

30.00

30.00

31.75

31.75

31.75

31.75

25.00

25.40

25.40

32.00

32.00

32.00

32.00

32.00

32.00

35.00

35.00

35.00

35.00

38.10

38.10

38.10

38.10

38.10

38.10

38.10

38.10

40.00

40.00

40.00

40.00

40.00

40.00

40.00

80

80

80

80

80

80

80

80

88

88

90

90

90

94

94

94

94

94

94

94

94

100

100

100

100

79

80

80

101

101

101

101

101

101

110

110

110

110

120

120

120

120

120

120

120

120

126

126

126

126

126

126

126

October 2012

Profile Number

Profile Number

Profile Number

O.D.mm

W.T.mm

Anod.Peri.

Est.kg/m

C.C.D.mm

PaintPeri.

Profile Number

Profile Number

Profile Number

PET401

PET296

PET404

PET1015

PET918

PET798

PET330

PET386

PET406

PET298

PET407

PET408

PET409

PET412

PET372

PET312

PET340

PET414

PET366

PET238

PET415

PET416

PET374

PET349

PET425

PET293

PET427

PET429

PET381

PET430

PET438

PET362

PET351

PET288

PET439

PET1055

PET448

PET325

PET341

PET450

OET202

OET166

OET174

OET200

OET255

OET168

OET307

OET241

OET182

OET210

OET160

OET235

OET238

OET275

OET217

OET243

OET219

OET163

OET178

OET295

OET250

OET231

OET220

OET158

OET263

OET195

OET211

CET11

CET8

CET401

CET296

CET404

CET918

CET798

CET330

CET386

CET1036

CET372

CET312

CET25

CET14

CET1015

CET374

CET349

CET1022

CET293

CET427

CET429

CET381

CET438

CET1017

CET362

CET53

CET351

CET288

CET23

CET1012

CET999

CET450 2.50 190 42 0.84042.00 132

PET337

PET1049

PET267

PET392

PET62

PET370

PET455

PET326

PET457

PET469

PET471

PET265

PET473

PET478

PET479

PET282

PET481

PET482

PET327

PET1059

PET275

PET487

PET299

PET492

PET20

PET1024

PET493

PET893

PET504

PET378

PET968

PET380

PET272

PET273

PET335

PET517

PET1042

PET519

PET525

PET526

PET527

PET371

PET528

PET301

PET356

OET298

OET207

OET167

OET137

OET261

OET138

OET227

OET239

OET196

OET135

OET251

OET152

OET197

OET297

OET248

OET169

OET208

OET247

OET240

OET171

OET225

OET249

OET142

OET143

OET205

CET1043

CET50

CET295

CET517

CET299

CET492

CET20

CET378

CET1011

CET380

CET272

CET273

CET1033

CET371

CET528

Content

CET337

CET297

CET392

CET62

CET370

CET1037

CET60

CET38

CET478

CET479

CET481

CET1000

CET275

Extruded TubesW.T.

A

An extruded tube is a hollow of uniform thickness in the shape of a circle.1Anodising Perimeter = Outside perimeter + / Inside perimeter.2

29 Hulamin Extrusions Standard Profile Catalogue

50.80

50.80

51.00

52.00

55.00

56.00

58.00

58.00

58.00

60.00

60.00

60.00

60.00

44.45

44.45

44.46

44.46

45.00

45.00

45.00

45.00

45.00

46.00

46.45

46.45

46.45

46.70

46.70

48.00

48.00

48.00

49.00

50.00

50.00

50.00

50.00

50.00

50.00

50.00

50.00

50.00

50.80

50.80

50.80

50.80

50.80

50.80

50.80

50.80

50.80

50.80

50.80

60.00

1.62

6.35

1.28*

3.18

2.00

2.50

3.00

5.00

5.50

3.00

8.88

9.63

10.88

4.01

5.08

2.50

3.00

4.50

4.50

1.00*

1.20*

1.50

2.00

2.50

3.00

3.50

5.00

10.00

1.05*

1.22*

1.27*

1.62

2.04

2.54

3.18

3.25

4.06

4.78

6.36

8.23

9.53

1.60

3.00

7.25

3.00

6.00

8.50

12.00

1.20*

1.68

2.00

2.50

3.00

204

190

205

200

206

204

203

196

195

207

191

189

185

207

204

218

217

212

217

232

232

231

229

228

226

225

220

204

236

236

235

234

233

231

229

229

227

224

219

214

209

235

236

236

254

254

247

236

279

277

276

275

273

44

44

44

44

45

45

45

45

45

46

46

46

46

47

47

48

48

48

49

50

50

50

50

50

50

50

50

50

51

51

51

51

51

51

51

51

51

51

51

51

51

51

52

55

56

58

58

58

60

60

60

60

60

0.590

2.059

0.470

1.117

0.732

0.904

1.072

1.702

1.849

1.098

2.839

3.017

3.293

1.457

1.799

0.968

1.149

1.666

1.704

0.417

0.498

0.619

0.817

1.011

1.20