Aluminium Hex Bar
Aluminium Hexagonal Bars are precisely shaped for items or machines that require accurate pieces. One of the most common places they are used is conveyor tables. Aluminium Hex Bars are usually easy to drill and form, making them common in braces, ornamental and interior works. High strength to weight ratio Aluminum Hex Bars are often used in for wheels.Aluminium Hex Bar ASTM B221, ASTM B317 (6101), ASTM B211
Sasa Aluminium Incorporation is the leading manufacturer and exporter of Aluminium Hex Bar. Supplier of ASTM B221 Aluminium Hex Bar in Tempers manufactured in accordance with international standards ASTM B221, ASME SB 221, EN573, and EN485, check Aluminium Hex Bar price. Wholesale Trader of Commercial Aluminium Hex Bar offered by Sasa Aluminium , China. Stockist of Aluminium Hex Bar, Mill Finish Hex Bar, / Cold Finished Hex Bar and Aluminium Cold Drawn Hex Bar in China.
Aluminium Hex Bar Specification: |
Standard | ASTM, ASME, AMS, ASTM B221M, GB/T 3191, JIS H4040, ASTM B221, AMS QQ-A-200/9 |
Aluminium Hex Bar Temper | O, H12, H14, H16, H18, H22, H24, H26, H32, H112 |
Aluminium Hex Bar sizes | Diameter:0.1-600mm,etc |
Aluminium Hex Bar Length | 1-12m, Random, Fix & Cut Length or as per clients’ requirement |
Aluminium Hex Bar | Bright, Polish & Black |
Aluminium Hex Bar Surface | Anodized, Polished, hair line, brush, Mill finished, Bright finish, paper interleaved |
Aluminium Solid Hex Bar Delivery Time | 10-30 days after receiving the prepayment |
Aluminium Hex Bar Packaging Details | Export standard package: bundled wooden box, suit for all kinds of transport or be required. |
ASTM B221 Aluminium Hex Bar Outer packing | Export standard, wooden pallet |
Manufacturer of |
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We Export Aluminium Hex Bar to | Singapore, Indonesia, Ukraine, Korea, Thailand, Vietnam, Saudi Arabia, Brazil, Spain, Canada, USA, Egypt, Iran, China, Kuwait, Dubai, Oman, Kuwait, Peru, Mexico, Iraq, Russia, Malaysia, etc. |
Extruded Aluminium Hex Bar
An extruded aluminum Hex Bar manufacturer transforms aluminum alloy into an amazing variety of useful products. Making the most of aluminum’s malleability, the extrusion process creates shapes by heating a billet, or cylindrical log, of aluminum alloy to soften it and then forcing it under high pressure through a special steel die using a hydraulic press or ram. The end result is a piece of aluminum that will maintain the specific shape of the die.
There are two primary types of extrusion processes — direct and indirect. In the direct extrusion process, the most common method used today, the softened aluminum billet is pushed by the ram through a stationary die to create the specified shape.
Indirect extrusion involves holding the aluminum billet stationary while the die moves. The die, which is contained within the ram, presses against the metal and forces it to flow into the ram and acquire the shape of the die.
Aluminium Cold Drawn Hex Bar
In this process, Aluminium Hex Bar being drawn is at room temperature (i.e. Cold-Drawn). The pointed/reduced end of the bar, which is smaller than the die opening, is passed through the die where it enters a gripping device of the drawing machine. The drawing machine pulls or draws the remaining unreduced section of the bar through the die. The die reduces the cross section of the original bar, shapes the profile of the product and increases the length of the original product.
Aluminium Hex Bar Grades
1000 Series Hex Bar: |
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2000 Series Hex Bar: |
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3000 Series Hex Bar: |
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4000 Series Hex Bar |
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5000 Series Hex Bar: |
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6000 Series Hex Bar: |
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7000 Series Hex Bar: |
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ASTM B221 Aluminium Hex Bar
ASME SB221 Aluminium Hex Bar: This Standard Specification for Aluminum and Aluminum-Alloy Extruded Hex Bar
This specification covers extruded Hex Bar made from aluminum and aluminum alloys. All Aluminium Hex Bar should be produced by hot extrusion or similar methods. The chemical composition of each material is determined in accordance with the specified suitable chemical and spectrochemical test methods.
ASTM B317 Aluminium Hex Bar
ASME SB317 Aluminium Hex Bar: This Standard Specification for Aluminum-Alloy Extruded Hex Bar
This specification covers 6101 aluminum-alloy extruded Hex Bar. The Aluminium Hex Bar shall be produced by hot extrusion or by similar methods.
ASTM B211 Aluminium Hex Bar
ASME SB211 Aluminium Hex Bar: This Standard Specification for Aluminum and Aluminum-Alloy Rolled or Cold Finished Hex Bar
This specification covers rolled or cold-finished aluminum and aluminum-alloy Hex Bar and includes the following UNS alloy designations: A91060, A91100, A92011, A92014, A92017, A92024, A92219, A93003, A95052, A95056, A95154, A96061, A96110, A96262, and A97075. The temper conditions covered by this specification include: O, H14, H18, H12, H16, H112, F, T3, T4, T42, T451, T6, T62, T651, T36, T351, T851, H32, H34, H36, H38, H111, H192, H392, T 89, T94, T9, T73, and T7351.
Aluminium Hex Bar Sizes
Standard Dimensions of Aluminium Hex Bar
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Cold Drawn Aluminium Hex Bar, Cold Forming Aluminium Material Hex Bar, EN 485-2 Aluminium Hex Bar stockist, Aluminium Hex Bar Price in China
Standard Specification of Aluminium Hex Bar: |
Specification | Alloy | Temper |
---|---|---|
Europe | ||
EN 2089/2395 | 2014A | T6(T62)/T4(T42) |
EN 2087/2088 | 2014A clad | T6(T62)/T4(T42) |
EN 4101 | 2024 | T4 |
EN 2090/2091/2703/4001 | 2024 clad cmq | T3/T4/T4(T42)/T351 |
EN 3474/3997/3998/3999 | 2024 cmq | T81/T3/T4(T42)/T351 |
EN 2694/EN 3341 | 6061 | T6(T62)/T4(T42) |
EN 4449/4450 | 7050 | T76/F(T762) |
EN 2696 | 7075 | T6(T62) |
EN 2092 | 7075 clad | T6(T62) |
EN 2802/3333 | 7475 | T761/F(T762) |
EN 2803/3332 | 7475 clad | T761/F(T762) |
France | ||
AIR 9048.010/.030/ | 2014 | F(T42)/F(T62)/T4/ |
.020/.040/.050 | 2014 | T6/T451 |
AIR 9048.060/.080/.070/.090 | 2014 clad | F(T42)/F(T62)/T4/T6 |
AIR 9048.100/.110/.120 | 2024 | |
AIR 9048.130/.140 | 2024 clad | F(T42)/T3 |
AIR 9048.150 | 2618A | H28(T62) |
AIR 9048.170 | 2618A clad | H28(T62) |
AIR 9048.190/.200 | 5086 | O, H111/H22, H32 |
AIR 9048.210/.220/.230/.240 | 6061 | O, H111(T42)/T4/ O, H111(T62)/T6 |
AIR 9048.260/.270 | 7075 | T6/T76 |
AIR 9048.280 | 7075 clad | T6 |
AIR 9048.290 | 7475 | T76 |
Germany | ||
W.-Nr. 3.1254 | 2014A | T4, T6 |
W.-Nr. 3.1354 | 2024 | O(T42), T3 |
W.-Nr. 3.1364 | 2024 clad | O(T42), T3 |
W.-Nr. 3.3214 | 6061 | O(T62), T6 |
W.-Nr. 3.4364 | 7075 | T6 |
W.-Nr. 3.4374 | 7075 clad | O(T62), T6 |
W.-Nr. 3.4377 | 7475 clad | T76 |
UK | ||
BS L16/17 | 1200 | H4/O |
BS L156/157/158*/159* | 2014A | |
158*/159* | 2014A clad | (T42)(T62) |
BS L163/164/165 | 2014A clad | T3/F(T42), T4/T6 |
BS L166*/167* | 2014A clad | F(T42), T4/T6 |
BS L109/110 | 2024 clad | T3/F(T42) |
DTD5070 | 2618A clad | T6 |
BS L59/60/61 | 3103 | H6/H2/O |
BS L80/81 | 5251 | O/H6 |
BS L113 | 6082 | T4, T6 |
BS L88 | 7075 clad | T6 |
USA | ||
AMS QQ-A-250/3 | 2014 clad | O, T4, T6 |
AMS QQ-A-250/4 | 2024 | O, T3 |
AMS 4037 | 2024 | T3 |
AMS QQ-A-250/5 | 2024 clad | O, T3 |
AMS 4041 | 2024 clad | T3 |
AMS QQ-A-250/30 | 2219 | O(T62), T31(T81), T37(T87) |
AMS QQ-A-250/2 | 3003 | O, H14 |
AMS 4347 | 6013 | T4 |
AMS 4216 | 6013 | T6 |
AMS 4025/4026/4027 | 6061 | O, F, T4, T42, T45, T6, T62, T651 |
AMS QQ-A-250/12 | 7075 | O, T6, T73 |
AMS QQ-A-250/24 | 7075 | T76 |
AMS QQ-A-250/13 | 7075 clad | O, T6, T73 |
AMS QQ-A-250/26 | 7075 clad with 7011 | T76 |
AMS QQ-A-250/25 | 7075 clad with 7072 | T76 |
European Standard | BS (OLD) | USA (AA) | GERMANY (DIN) | ISO | IS | Canadian |
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EN AW-1050 A | 1E | 1050 | Al99.5 | Al99.5 | 19500, 19501 | 1 S |
EN AW-1070 A | – | 1070 | Al-99.7 | Al-99.7 | 19700 | – |
EN AW-1100 | IC | 1100 | Al-99.0 | Al-99.0 | 19000 | 2 S |
EN AW-2011 | FC1 | 2011 | AlCuBiPb | AlCu6BiPb | – | 28S |
EN AW-2014 | HE15 | 2014 | AlCuSiMn | AlCu4SiMg | 24345 | B26S |
EN AW-2024 | – | 2024 | AlCuMg2 | AlCu4Mg1 | – | 24 S |
EN AW-3003 | N3 | 3003 | AlMnCu | AlMn1Cu | 31000 | 3 S |
EN AW-3103 | – | 3103 | – | AlMn1 | – | – |
EN AW-6101A | E91E | 6101 | E AlMgSi 0.5 | E AlMgSi(A) | 63401 | D50S |
EN AW-6005 | – | 6005 | AlMgSi0.7 | AlSiMg | 62400 | C51S |
EN AW-6351 | HE30 | 6351 | AlMgSi1 | AlSiMg0.5Mn | 64430 | B51S |
EN AW-6060 | – | 6060 | AlMgSi 0.5 | AlMgSi | – | – |
EN AW-6061 | HE20 | 6061 | AlMgSiCu | AlMg1SiCu | 65032 | 65S |
EN AW-6063 | HE9 | 6063 | AlMgSi0.5 | AlMg0.7Si | 63400 | 50S |
EN AW-6082 | HE30 | 6351 | AlMgSi1 | AlSi1MgMn | 64430 | B51S |
Aluminium Hex Bar Equivalent Grades: |
China |
U.S.A. |
BRITAIN |
CANADA | GERMANY |
RUSSIA |
I.S.O. |
FRENCH | |
---|---|---|---|---|---|---|---|---|
New IS | Old IS | (A.A.) |
(B.S.) |
(DIN) | – | – | – | |
19501 | 1E | 1050(E.C.) | 1E | C 1S | E-Al 99.5 | – | Al-99.5 | 1050A |
19500 | 1B | 1050 | 1B | 1S | A-99.5 | – | – | – |
19600 | – | 1060 | – | – | – | – | Al-99.7 | – |
19700 | – | 1070 | – | – | Al-99.7 | – | Al-99.8 | – |
19800 | 1A | 1080 | 1A | – | – | – | Al-99.0 | 1200 |
19000 | 1C | 1100 | 1C | 2S | Al-99.0 | AD | Al-Cu-6 Bi Pb | 2011 |
– | – | 2011 | FC1 | 28S | Al-Cu-Bi-Pb | – | – | – |
24345 | H15 | 2014 | H15 | B26S | Al-Cu-Si | AK | Al-Cu-4Mg Si | – |
24534 | H14 | 2017 | H14 | 17S/16S | – | D1 | Al-Cu-4Mg 1 | 2024 |
– | – | 2024 | – | 24S | Al-Cu-Mg.2 | – | AlCu-4PbMg | 2030 |
– | – | 2030 | – | – | Al-Cu-Mg-Pb | – | Al-Cu2-Mg1.5-Ni | 2618 |
– | – | 2618 | 2618 | – | – | – | A-Mn 1 | 3003 |
31000 | N3 | 3003 | N3 | 3S | Al-Mn | A-Mn | Al Mn 1 Mg 1 | 3004 |
– | – | 3004 | – | Al-Mn.1-Mg.1 | Al Mn 1 Mg 0.50 | 3005 | ||
– | – | 3005 | – | Al-Mn.1-Mg.0.50 | Al-Si5 | 4043 | ||
43000 | N21 | 4043 | N21 | 33S | Al-Si-5 | AK | – | – |
46000 | N2 | 4047 | N2 | 35S | – | – | A-Mg-1 | – |
51000 | – | 5005 | – | B57S | – | – | Al-Mg-2 | 5251 |
5051 | 5251 | Al-Mg.2 Mn.0.30 | A-Mg-2.5 | 5051 | ||||
52000 | N4 | 5052 | N4 | M57S | Al-Mg.2 | A-Mg | A-Mg-4 | – |
53000 | N5 | 5086 | N5 | 54S | – | A-Mg-3 | Al-Mg-4.5 Mn | 5083 |
54300 | N8 | 5083 | N8 | D54S | Al-Mg-4.5 Mn | – | Al-Mg.5 | 5356 |
55000 | N6 | 5056 | N6 | A56S | Al-Mg.5 | – | Al-Mg.3-Mn | 5454 |
5454 | 5454 | Al-Mg.2.7-Mn | – | Al.Mg.3 | 5754 | |||
5754 | Al-Mg.3 | Al-Mg-1Si Cu | – | |||||
65032 | H20 | 6061 | H20 | 65S | Al-Mg-Si Cu | – | Al-Mg-Si | – |
63400 | H9 | 6063 | H9 | 50S | Al-Mg-Si 0.5 | – | Al-Si-1 Mg | 6081 |
64430 | H30 | 6351 | H30 | B51S | Al-Mg-Si 1 | AV | Al-Si-1 Mg Mn | 6082 |
6082 | 6082 | Al-Mg-Si 1 | – | – | – | |||
64423 | H11 | 6066 | H11 | C62S | – | – | – | |
62400 | – | 6005 | – | C51S | – | – | – | – |
63401 | 91E | 6101 | 91E | D50S | E.Al.Mg.Si 0.5 | – | – | – |
64401 | – | 6201 | – | – | – | – | – | |
– | – | 7020 | 7020 | – | – | – | 7020 | |
74530 | – | 7039 | – | D74S | – | – | 3004 | |
– | – | 7075 | DTD-5124 | 75S | – | Al-Zn 6 Mg Cu | 7075 | |
40800 | 8011 | – | Al-Fe-Si | 8011 |
Aluminium Hex Bar Chemical Composition: |
MINIUM Alloy | % Si |
% Mg |
% Mn |
% Cu |
% Fe |
% Cr |
% Zn |
% Ti |
% Others |
% Al |
---|---|---|---|---|---|---|---|---|---|---|
EN AW-1050 A | 0.25 Max |
0.05 Max |
0.05 Max |
0.05 Max |
0.40 Max |
– | 0.07 Max |
0.05 Max |
– | 99.5 Min |
EN AW-1070 A | 0.20 Max |
0.03 Max |
0.03 Max |
0.03 Max |
0.25 Max |
– | 0.07 Max |
0.03 Max |
– | 99.7 Min |
EN AW-1100 | Si+Fe 0.95 Max | – | 0.05 Max | 0.05 – 0.20 | – | – | 0.10 Max | 0.05 Max | – | 99.0 Min |
EN AW-2011 | 0.40 Max | – | – | 5.00 – 6.00 | 0.70 Max | – | 0.30 Max | – | Bi : 0.20 – 0.60 Pb : 0.20 – 0.60 |
Remainder |
EN AW-2014 | 0.50 – 1.20 | 0.20 – 0.80 | 0.40 – 1.20 | 3.90 – 5.00 | 0.70 Max | 0.10 Max | 0.25 Max | 0.15 Max | – | Remainder |
EN AW-2024 | 0.50 Max | 1.20 -1.80 | 0.30 – 0.90 | 3.80 – 4.90 | 0.50 Max | 0.10 Max | 0.25 Max | 0.15 Max | 0.15 Max | Remainder |
EN AW-3003 | 0.60 Max | – | 1.00 – 1.50 | 0.05 – 0.20 | 0.70 Max | – | 0.10 Max | – | 0.15 Max | Remainder |
EN AW-3103 | 0.50 Max | 0.30 Max | 0.90 – 1.50 | 0.10 Max | 0.70 Max | 0.10 Max | 0.20 Max | 0.10 Max | – | Remainder |
EN AW-6101A | 0.30 – 0.7 | 0.40 – 0.90 | 0.03 Max | 0.05 Max | 0.40 Max | – | – | – | 0.10 Max | Remainder |
EN AW-6005 | 0.60 – 0.90 | 0.40 – 0.60 | 0.10 Max | 0.10 Max | 0.35 Max | 0.10 Max | 0.10 Max | 0.10 Max | – | Remainder |
EN AW-6351 | 0.70 – 1.30 | 0.40 – 0.80 | 0.40 – 0.80 | 0.10 Max | 0.50 Max | – | 0.20 Max | 0.20 Max | 0.15 Max | Remainder |
EN AW-6060 | 0.30 – 0.60 | 0.35 – 0.60 | 0.10 Max | 0.10 Max | 0.10 – 0.30 | 0.05 Max | 0.15 Max | 0.10 Max | – | Remainder |
EN AW-6061 | 0.40 – 0.80 | 0.80 – 1.20 | 0.15 Max | 0.15 – 0.40 | 0.70 Max | 0.04 – 0.35 | 0.25 Max | 0.15 Max | – | Remainder |
EN AW-6063 | 0.20 – 0.60 | 0.45 – 0.90 | 0.10 Max | 0.10 Max | 0.35 Max | 0.10 Max | 0.10 Max | 0.10 Max | – | Remainder |
EN AW-6082 | 0.70 – 1.30 | 0.60 -1.20 | 0.40 – 1.00 | 0.10 Max | 0.50 Max | 0.25 Max | 0.20 Max | 0.10 Max | – | Remainder |
Aluminium Hex Bar Mechanical Properties: |
Alloy | Temper | UTS (Mpa) | Yield Strength (Mpa) | Elongation (%) | ||
Minimum | Maximum | Minimum | Maximum | A 50mm (Minimum) | ||
EN AW-1050 A | F | 60 | – | 20 | – | 23 |
O | 60 | 95 | 20 | – | 23 | |
EN AW-1070 A | F | 60 | – | 20 | – | 23 |
EN AW-1100 | O | 75 | 110 | – | – | 25 |
EN AW-2011 | T4 | 275 | – | 125 | – | 12 |
T6 | 310 | – | 230 | – | 6 | |
EN AW-2014 | O | – | 250 | – | 135 | 10 |
T4 | 370 | – | 230 | – | 11 | |
T6 | 415 | – | 370 | – | 5 | |
EN AW-2024 | O | – | 250 | – | 150 | 10 |
T3,T3510,T3511 | 395 | – | 290 | – | 6 | |
T8,T8510,T8511 | 455 | – | 380 | – | 4 | |
EN AW-3003 | F | 95 | – | 35 | – | 20 |
O | 95 | 135 | 35 | – | 20 | |
EN AW-3103 | F | 95 | – | 35 | – | 20 |
O | 95 | 135 | 35 | – | 20 | |
EN AW-6101A | T6 | 200 | – | 170 | – | 8 |
EN AW-6005 | T4 | 180 | – | 90 | – | 13 |
T6 | 270 | – | 225 | – | 6 | |
EN AW-6351 | O | – | 160 | – | 110 | 12 |
T4 | 205 | – | 110 | – | 12 | |
T6 | 290 | – | 250 | – | 6 | |
EN AW-6060 | T4 | 120 | – | 60 | 14 | 12 |
T5 | 160 | – | 120 | – | 6 | |
T6 | 190 | – | 150 | – | 6 | |
T64 | 180 | – | 120 | – | 10 | |
T66 | 215 | – | 160 | – | 6 | |
EN AW-6061 | O | – | 150 | – | 110 | 14 |
T4 | 180 | – | 110 | – | 13 | |
T6 | 260 | – | 240 | – | 6 | |
EN AW-6063 | O | – | 130 | – | – | 16 |
T4 | 130 | – | 65 | – | 12 | |
T5 | 175 | – | 130 | – | 6 | |
T6 | 215 | – | 170 | – | 6 | |
T66 | 245 | – | 200 | – | 6 | |
EN AW-6082 | O | – | 160 | – | 110 | 12 |
T4 | 205 | – | 110 | – | 12 | |
T5 | 270 | – | 230 | – | 6 | |
T6 | 290 | – | 250 | – | 6 |
Aluminium Hex Bar Marking & Packing
Standard seaworthy export packing: wooden pallets with plastics protection.
Typical application of Aluminium Hex Bar
Aluminium Hex Bar is the most widely used form of Industrial Aluminium. Aluminium Hex Bar find applications in various industries such as manufacturing cans and packages, transportation, home appliances, building and construction.
- Balustrades
- Building & Construction
- Cool Rooms
- Fencing
- Louvres & Sun Protection
- Marine
- Mining & Industrial Equipment
- Signage
- Transport