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EN AW-Al MgSi | EN AW-6060 Material Datasheet

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Material Description

Material Number Material Number (single) Standard Scope Standard Status Country Predecessor Successor VDA 231-106 classification
EN AW-6060 (DIN EN 573-3 : 2007-11) EN AW-6060 DIN EN 573-3 : 2007-11 DIN EN 573-3 : 2007-11 replaced by DIN EN 573-3 : 2007-11 Replaced Germany EN AW-Al MgSi EN AW-Al MgSi 2.1 1)
1) Remark: Material EN AW-Al SiMg(A) is produced for HF-welded tubes, for heat-exchanger prematerial, extruded and drawn components, for wire and prewire for mechanical applications. The food-safe alloy is used for forged parts and prematerial. To the comparable mark AlMgSi0,5, mat. No.3.3206, acc. to DIN 1725-1 applies: This natural and artificial agable material achieves strength values of 200 to 250 N/mm² at A5- ductile yield of approx. 10 %. Heat-treatment for hardening: solution annealing: 525 to 540°C, quenching in air or water natural aging: 5 to 8 d at RT artificial aging: 4 to 16 h at 155 to 190°C In natural or artificial aged condition the alloy is only limited formable but in soft material condition it is well formable. It shows a favorable weldability, corrosion resistance and anodizability. Due to its special suitability for extrusion there are many cross-sections for staticly loaded components which are usable in vehicle manufacturing, general machine engineering or construction trade. Application: for windows, doors, window walls, front plates, shutters, roll-up gates, carrying constructions, heat-exchanger ( finned pipes), commercial-vehicle bodies, machine benches, metal goods, food industry, equipment of rail vehicles, optics, reflectors, control devices in hydraulics/pneumatics, in machine engineering, hulls in boat and shipbuilding, traffic signs, trim strip and trim parts in construction, showers, fences and partition walls, pipelines in pressure-gas tanks, camping furniture.

Chemical Composition

Cr [%] Cu [%] Fe [%] Mg [%] Mn [%] Si [%] Ti [%] Zn [%]
≤ 0.05 ≤ 0.1 0.1 - 0.3 0.35 - 0.6 ≤ 0.1 0.3 - 0.6 ≤ 0.1 ≤ 0.15 1)2)
1) Source: EN 573-3 : 2007-08
2) Remark: Al remainder further admixtures: separately: max. 0,05 % total: max. 0,15 % Further admixtures are all listed elements (Ni, Ga, V total 0.15 %, single max. 0.05 %), for which no limit values are given. The sum of these other admixtures, whose single mass contents amounts to single 0.010 % or more, is expressed with two decimal places before the sum.

Mechanical Properties

Semi-finished Product Condition Designation of the delivered Condition DIN Delivery Condition EN Nominal Size [mm] Temperature [°C] Tensile Strength [MPa] Yield Strength (0.2% offset) [MPa] Elongation A100 [%] Elongation A [%] Elongation A50 [%]
Wire (drawn) T39 (solution heat-treated and cold worked an appropriate amount to achieve the specified mechanical properties) -T39 ≤ 6 20 ≥ 220 1)
Wire (drawn) T39 (solution heat-treated and cold worked an appropriate amount to achieve the specified mechanical properties) -T39 ≥ 6 20 ≥ 270 1)
Wire (drawn) T4 (solution heat-treated and naturally aged) -T4 ≤ 20 20 140 - 210 90 13 1)
Wire (drawn) T6 (solution heat-treated and then artificially aged) -T6 ≤ 20 20 ≥ 210 160 10 1)
Wire (drawn) T89 (solution heat-treated, cold worked an appropriate amount to achieve the specified mechanical properties and then artificially aged) -T89 ≤ 6 20 ≥ 260 1)
Stock for heat exchanger (Finstock) H14 (strain-hardened - 1/2 hard) .26 -H14 0.08 - 0.139 20 110 - 160 ≥ 110 ≥ 2 ≥ 2 2)3)
Stock for heat exchanger (Finstock) H14 (strain-hardened - 1/2 hard) .26 -H14 0.14 - 0.2 20 110 - 160 ≥ 110 ≥ 2 ≥ 2 2)3)
Stock for heat exchanger (Finstock) H18 (strain-hardened - 4/4 hard (fully hardened)) .30 -H18 0.08 - 0.139 20 ≥ 160 ≥ 150 ≥ 1 ≥ 1 2)3)
Stock for heat exchanger (Finstock) H18 (strain-hardened - 4/4 hard (fully hardened)) .30 -H18 0.14 - 0.2 20 ≥ 160 ≥ 150 ≥ 1 ≥ 1 2)3)
Stock for heat exchanger (Finstock) H19 (strain-hardened - extra hard) .32 -H19 0.08 - 0.139 20 ≥ 200 ≥ 180 ≥ 1 ≥ 1 2)3)
Stock for heat exchanger (Finstock) H19 (strain-hardened - extra hard) .32 -H19 0.14 - 0.2 20 ≥ 200 ≥ 180 ≥ 1 ≥ 1 2)3)
Stock for heat exchanger (Finstock) soft annealed (+A) .10 -O 0.08 - 0.139 20 80 - 140 ≤ 80 ≥ 11 ≥ 11 2)3)
Stock for heat exchanger (Finstock) soft annealed (+A) .10 -O 0.14 - 0.2 20 80 - 140 ≤ 80 ≥ 12 ≥ 12 2)3)
Tube (drawn) T4 (solution heat-treated and naturally aged) .41;.51 -T4 ≤ 5 20 ≥ 130 ≥ 65 ≥ 12 ≥ 10 4)5)
Tube (drawn) T4 (solution heat-treated and naturally aged) .61;.62 -T4 5 - 20 20 ≥ 130 ≥ 65 ≥ 15 ≥ 13 4)5)
Tube (drawn) T6 (solution heat-treated and then artificially aged) .61;.62 -T6 ≤ 20 20 ≥ 215 ≥ 160 ≥ 12 ≥ 10 4)5)
Rods (drawn) T4 (solution heat-treated and naturally aged) .41;.51 -T4 ≤ 80 20 ≥ 130 ≥ 65 ≥ 15 ≥ 13 4)6)
Rods (drawn) T6 (solution heat-treated and then artificially aged) .61;.62 -T6 ≤ 80 20 ≥ 215 ≥ 160 ≥ 12 ≥ 10 4)6)
Tube (extruded) T4 (solution heat-treated and naturally aged) .41;.51 -T4 ≤ 15 20 ≥ 120 ≥ 60 ≥ 16 ≥ 14 5)7)
Tube (extruded) T5 (cooled from an elevated temperature shaping process and then artificially aged) (.61) -T5 ≤ 15 20 ≥ 160 ≥ 120 ≥ 8 ≥ 6 7)8)
Tube (extruded) T6 (solution heat-treated and then artificially aged) .61;.62 -T6 ≤ 15 20 ≥ 190 ≥ 150 ≥ 8 ≥ 6 5)7)
Tube (extruded) T64 (solution heat-treated and then artificially aged in underaging conditions (between T6 and T61) to improve formability) -T64 ≤ 15 20 ≥ 180 ≥ 120 ≥ 12 ≥ 10 7)9)
Tube (extruded) T66 (solution heat-treated and then artificially aged - mechanical property level higher than T6 achieved through special control of the process) -T66 ≤ 15 20 ≥ 215 ≥ 160 ≥ 8 ≥ 6 5)7)
Rods (extruded) T4 (solution heat-treated and naturally aged) .41;.51 -T4 ≤ 150 20 ≥ 120 ≥ 60 ≥ 16 ≥ 14 6)7)
Rods (extruded) T5 (cooled from an elevated temperature shaping process and then artificially aged) (.61) -T5 ≤ 150 20 ≥ 160 ≥ 120 ≥ 8 ≥ 6 7)10)
Rods (extruded) T6 (solution heat-treated and then artificially aged) .61;.62 -T6 ≤ 150 20 ≥ 190 ≥ 150 ≥ 8 ≥ 6 6)7)
Rods (extruded) T64 (solution heat-treated and then artificially aged in underaging conditions (between T6 and T61) to improve formability) -T64 ≤ 50 20 ≥ 180 ≥ 120 ≥ 12 ≥ 10 7)11)
Rods (extruded) T66 (solution heat-treated and then artificially aged - mechanical property level higher than T6 achieved through special control of the process) -T66 ≤ 150 20 ≥ 215 ≥ 160 ≥ 8 ≥ 6 6)7)
Extruded profile T4 (solution heat-treated and naturally aged) .41;.51 -T4 ≤ 25 20 ≥ 120 ≥ 60 ≥ 16 ≥ 14 7)12)
Extruded profile T5 (cooled from an elevated temperature shaping process and then artificially aged) (.61) -T5 ≤ 5 20 ≥ 160 ≥ 120 ≥ 8 ≥ 6 7)13)
Extruded profile T5 (cooled from an elevated temperature shaping process and then artificially aged) (.61) -T5 5 - 25 20 ≥ 140 ≥ 100 ≥ 8 ≥ 6 7)13)
Extruded profile T6 (solution heat-treated and then artificially aged) .61;.62 -T6 ≤ 3 20 ≥ 190 ≥ 150 ≥ 8 ≥ 6 7)12)
Extruded profile T6 (solution heat-treated and then artificially aged) .61;.62 -T6 3 - 25 20 ≥ 170 ≥ 140 ≥ 8 ≥ 6 7)12)
Extruded profile T64 (solution heat-treated and then artificially aged in underaging conditions (between T6 and T61) to improve formability) -T64 ≤ 15 20 ≥ 180 ≥ 120 ≥ 12 ≥ 10 7)14)
Extruded profile T66 (solution heat-treated and then artificially aged - mechanical property level higher than T6 achieved through special control of the process) -T66 ≤ 3 20 ≥ 215 ≥ 160 ≥ 8 ≥ 6 7)12)
Extruded profile T66 (solution heat-treated and then artificially aged - mechanical property level higher than T6 achieved through special control of the process) -T66 3 - 25 20 ≥ 195 ≥ 150 ≥ 8 ≥ 6 7)12)
artificially aged 20 246 15)16)
artificially aged 100 232 15)16)
artificially aged 150 152 15)16)
artificially aged 200 63 15)16)
artificially aged 250 35 15)16)
artificially aged 320 18 15)16)
artificially aged 370 14 15)16)
1) Source: EN 1301-2 : 2008-09
2) Source: DIN EN 683-2 : 1996-11
3) Remark: Nominal dimension: thickness. Ultimate strain: initial gauge length (50 or 100mm) according to the manufacturers choice.
4) Source: DIN EN 754-2 : 1997-08
5) Remark: Longitudinal test specimens. Nominal dimension: wall thickness. A50 up to 12.5mm. The properties may be achieved by quenching at the press.
6) Remark: Longitudinal test specimens. Nominal dimension: diameter (round bars), width across flats (square and hexagonal bars), thickness (rectangular bar). A50: for extruded bars (rectangular bars up to 12.5 mm). The properties may be achieved by quenching at the press.
7) Source: DIN EN 755-2 : 1997-08
8) Remark: Longitudinal test specimens. Nominal dimension: wall thickness. A50 up to 12.5 mm.
9) Remark: Longitudinal test specimens. Nominal dimension: wall thickness. A50 up to 12.5 mm. The properties may be achieved by quenching at the press. Suitable for bending.
10) Remark: Longitudinal test specimens. Nominal dimension: diameter (round bars), width across flats (square and hexagonal bars), thickness (rectangular bar). A50: for extruded bars (rectangular bars up to 12.5 mm).
11) Remark: Longitudinal test specimens. Nominal dimension: diameter (round bars), width across flats (square and hexagonal bars), thickness (rectangular bar). A50: for extruded bars (rectangular Bars up to 12.5 mm). The properties may be achieved by quenching at the press. Suitable for bending.
12) Remark: Longitudinal test specimens. Nominal dimension: wall thickness. A50 up to 12.5 mm. The properties may be achieved by quenching at the press. If the cross section of a section consists of different thicknesses that various values of the mechanical properties are assigned to, the lowest fixed values are valid for the whole cross section of the respective section.
13) Remark: Longitudinal test specimens. Nominal dimension: wall thickness. A50 up to 12.5 mm. If the cross section of a section consists of different thicknesses that various values of the mechanical properties are assigned to, the lowest fixed values are valid for the whole cross section of the respective section.
14) Remark: Longitudinal test specimens. Nominal dimension: wall thickness. A50 up to 12.5 mm. The properties may be achieved by quenching at the press. If the cross section of a section consists of different thicknesses that various values of the mechanical properties are assigned to, the lowest fixed values are valid for the whole cross section of the respective section. Suitable for bending.
15) Source: Reynolds The aluminium data book
16) Remark: Values from the only roughly comparable material AA 6063-T6 (ENAW-AlMg0.7Si).

Cross Reference

Material Name Country Standard
6060 Australia AS 2848.1
6060 Belgium NBN P 21-001
6060 France NF A 50-411
A-GS France NF A 50-411
AA 6060 USA International Registration Record (AA)
AlMgSi International ISO 209-1
3569 Italy UNI 9006/1
6060 Italy UNI 9006/1
9006/1 Italy UNI 9006/1
P-AlMg0,5Si0,4Fe Italy UNI 9006/1
3.5452.00 Yugoslavia JUS C.C2.100
AlMgSi0,5 Yugoslavia JUS C.C2.100
17310 Norway NS 17310
AlMgSi Norway NS 17310
AlMgSi0,5 Austria ÖNORM M 3430
144103 Sweden SIS 144103
AlMgSi0,5 Switzerland SN 210900
6060 Spain UNE 38-300
Al-0,5MgSi Spain UNE 38-300
L-3442 Spain UNE 38-300
6060 Spain UNE 38-350
Al-0,5MgSi Spain UNE 38-350
L-3442 Spain UNE 38-350
A96060 USA UNS
6060 USA ASTM B 221
AlMgSi0,5 (3.3206) Germany DIN 1725-1

Material Compliance

REACh RoHS
compliant, no regulated substances above 0.1% compliant, no regulated substances above 0.1% (lead) or 0.01% (cadmium)

Linear-elastic

Temperature [°C] Young's modulus [GPa] Bulk modulus [GPa] Shear modulus [GPa] Poisson's ratio
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Alternating stress

Temperature [°C] Stress ratio Mean stress [MPa] Alternating stress [MPa] Cycles
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Yield strength

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Classification

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Designation

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Yield strength

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Tensile strength

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WIAM Material Treatment Semi-finished product Dimension [mm] Load type Failure criteria Rolling direction Maximum stress [MPa] Strain at maximum stress [%] Source description
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WIAM Material Treatment Semi-finished product Dimension [mm] Load type Failure criteria Rolling direction Maximum stress [MPa] Strain at maximum stress [%] Source description
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WIAM Material Treatment Semi-finished product Dimension [mm] Load type Failure criteria Rolling direction Maximum stress [MPa] Strain at maximum stress [%] Source description
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WIAM Material Treatment Semi-finished product Dimension [mm] Load type Failure criteria Rolling direction Maximum stress [MPa] Strain at maximum stress [%] Source description
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WIAM Material Treatment Semi-finished product Dimension [mm] Load type Failure criteria Rolling direction Maximum stress [MPa] Strain at maximum stress [%] Source description
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Classification

WIAM Material Treatment Semi-finished product Dimension [mm] Load type Failure criteria Rolling direction Maximum stress [MPa] Strain at maximum stress [%] Source description
blur blur blur blur blur blur blur blur blur blur

Yield strength

Temperature [°C] 0.1% Proof strength [MPa] 0.2% Proof strength [MPa] Yield strength [MPa]
blur blur blur blur

Tensile strength

Temperature [°C] Tensile strength [MPa]
blur blur

Classification

WIAM Material Treatment Semi-finished product Dimension [mm] Load type Failure criteria Rolling direction Maximum stress [MPa] Strain at maximum stress [%] Source description
blur blur blur blur blur blur blur blur blur blur

Yield strength

Temperature [°C] 0.1% Proof strength [MPa] 0.2% Proof strength [MPa] Yield strength [MPa]
blur blur blur blur

Tensile strength

Temperature [°C] Tensile strength [MPa]
blur blur

Classification

WIAM Material Treatment Semi-finished product Dimension [mm] Load type Failure criteria Rolling direction Maximum stress [MPa] Strain at maximum stress [%] Source description
blur blur blur blur blur blur blur blur blur blur