Aluminum Alloy

Aluminum is a silvery-white light metal. The development of three important industries, aviation, construction and automobile, requires that the material characteristics have the unique properties of aluminum and its alloys, which is greatly conducive to the production and application of this new metal aluminum. The application is very wide.

Application

Automotive manufacturing	Aluminum has good strength and thermal conductivity properties, making it an ideal material for lightweight automotive manufacturing. Using aluminum to make cars can reduce weight, fuel consumption and exhaust emissions. The good thermal conductivity of aluminum can improve the efficiency of the cooling system, so that the car can operate better in high temperature environment.
Aerospace	Aluminum is one of the widely used materials in the aerospace industry. Because aluminum is lightweight, strong and resistant to corrosion, it allows aircraft to reduce weight and fly more efficiently. Aluminum alloy is widely used in the aerospace field in the manufacture of aircraft fuselage, aircraft engine, land and naval cruise missile, spacecraft and other instruments.
Construction	Aluminum is widely used in construction, especially in exterior wall decoration and door and window manufacturing. Aluminum is lightweight, resistant to corrosion and oxidation, and can be used to manufacture building components of all shapes and sizes. In addition, aluminum can also be coated to make it weather and corrosion resistant, increasing the life of the building.
Packaging industry	Aluminum is widely used in the packaging of food and pharmaceutical industries due to its good corrosion resistance and sealing properties. Aluminum packaging can effectively protect the quality of food and drugs, extend the shelf life, and has the advantages of being light and recyclable.

Grade	Supply Status	Thickness (mm)			Specified non-proportional Elongation Rp0.2/(MPa)	Elongation after fracture /% (A 50mm)	Elongation after fracture /% a (A)	Bending radius b (90°)	Bending radius b (180°)
3004	O H111	＞ 0.20~0.50	155~200	≥ 60	≥ 60	≥ 13	-	0t	0t
	O H111	＞ 0.50~1.50	155~200	≥ 60		≥ 14	-	0t	0t
	O H111	＞ 1.50~3.00	155~200	≥ 60		≥ 15	-	0t	0.5t
	O H111	＞ 3.00~6.00	155~200	≥ 60		≥ 16	-	1.0t	1.0t
	O H111	＞ 6.00~12.50	155~200	≥ 60		≥ 16	-	2.0t	-
	O H111	＞ 12.50~50.00	155~200	≥ 60		-	≥ 14	-	-
	H12	＞ 0.20~0.50	190~240	≥ 155	≥ 155	≥ 2	-	0t	1.5t
	H12	＞ 0.50~1.50	190~240	≥ 155		≥ 3	-	0.5t	1.5t
	H12	＞ 1.50~3.00	190~240	≥ 155		≥ 4	-	1.0t	2.0t
	H12	＞ 3.00~6.00	190~240	≥ 155		≥5	-	1.5t	-
	H22 H32	＞ 0.20~0.50	190~240	≥ 145	≥ 145	≥ 4	-	0t	1.0t
	H22 H32	＞ 0.50~1.50	190~240	≥ 145		≥ 5	-	0.5t	1.0t
	H22 H32	＞ 1.50~3.00	190~240	≥ 145		≥ 6	-	1.0t	1.5t
	H22 H32	＞ 3.00~6.00	190~240	≥ 145		≥ 7	-	1.5t	-
	H14	＞ 0.20~0.50	220~265	≥ 180	≥ 180	≥ 1	-	0.5t	2.5t
	H14	＞ 0.50~1.50	220~265	≥ 180		≥ 2	-	1.0t	2.5t
	H14	＞ 1.50~3.00	220~265	≥ 180		≥ 2	-	1.5t	2.5t
	H14	＞ 3.00~6.00	220~265	≥ 180		≥ 3	-	2.0t	-
	H24 H34	＞ 0.20~0.50	220~265	≥ 170	≥ 170	≥ 3	-	0.5t	2.0t
	H24 H34	＞ 0.50~1.50	220~265	≥ 170		≥ 4	-	1.0t	2.0t
	H24 H34	＞ 1.50~3.00	220~265	≥ 170		≥ 4	-	1.5t	2.0t

Grade	Supply Status	Sample Status	Thickness/mm	T.S. Rm/( MPa)	Non-proportional Elongation Rp0.2/( MPa)	Elongation after fracture /% a (A 50mm)	Elongation after fracture /% a (A)	Bending radius b (90°)	Bending radius b (180°)
3004	H16	H16	＞ 0.20~0.50	240~285	≥ 200	≥ 1	-	1.0t	3.5t
	H16	H16	＞ 0.50~1.50	240~285	≥ 200	≥ 1	-	1.5t	3.5t
	H16	H16	＞ 1.50~4.00	240~285	≥ 200	≥ 2	-	1.0t	-
	H26 H36	H26 H36	＞ 0.20~0.50	240~285	≥ 190	≥ 3	-	1.5t	3.0t
	H26 H36	H26 H36	＞ 0.50~1.50	240~285	≥ 190	≥ 3	-	2.5t	3.0t
	H26 H36	H26 H36	＞ 1.50~3.00	240~285	≥ 190	≥ 3	-	1.5t	-
	H18	H18	＞ 0.20~0.50	≥ 260	≥ 230	≥ 1	-	2.5t	-
	H18	H18	＞ 0.50~1.50	≥ 260	≥ 230	≥ 1	-	-	-
	H18	H18	＞ 1.50~3.00	≥ 260	≥ 230	≥ 2	-	1.5t	-
	H28 H38	H28 H38	＞ 0.20~0.50	≥ 260	≥ 220	≥ 2	-	2.5t	-
	H28 H38	H28 H38	＞ 0.50~1.50	≥ 260	≥ 220	≥ 3	-	-	-
	H19	H19	＞ 0.20~0.50	≥ 270	≥ 240	≥ 1	-	-	-
	H19	H19	＞ 0.50~1.50	≥ 270	≥ 240	≥ 1	-	-	-
	H112	H112	＞ 4.50~12.50	≥ 160	≥ 60	≥ 7	-	-	-
	H112	H112	＞ 12.50~40.00	≥ 160	≥ 60	-	≥ 6	-	-
	H112	H112	＞ 40.00~80.00	≥ 160	≥ 60	-	≥ 6	-	-
	F	-	＞ 2.50~80.00	-	-	-	-	-

Grade	Supply Status	Sample Status	Thickness/mm	T.S. Rm/( MPa)	Non-proportional Elongation Rp0.2/( MPa)	Elongation after fracture /% a (A 50mm)	Elongation after fracture /% a (A)	Bending radius b (90°)	Bending radius b (180°)
5005 5005A	O H111	O H111	＞ 0.20~0.50	100~145	≥ 35	≥ 15		0t	0t
	O H111	O H111	＞ 0.50~1.50	100~145	≥ 35	≥ 19		0t	0t
	O H111	O H111	＞ 1.50~3.00	100~145	≥ 35	≥ 20		0t	0.5t
	O H111	O H111	＞ 3.00~6.00	100~145	≥ 35	≥ 22		1.0t	1.0t
	O H111	O H111	＞ 6.00~12.50	100~145	≥ 35	≥ 24		1.5t	-
	O H111	O H111	＞ 12.50~50.00	100~145	≥ 35	-	≥ 20	-	-
	H12	H12	＞ 0.20~0.50	125~165	≥ 95	≥ 2	-	0t	1.0t
	H12	H12	＞ 0.50~1.50	125~165	≥ 95	≥ 2	-	0.5t	1.0t
	H12	H12	＞ 1.50~3.00	125~165	≥ 95	≥ 4	-	1.0t	1.5t
	H12	H12	＞ 3.00~6.00	125~165	≥ 95	≥ 5	-	1.0t	-
	H22 H32	H22 H32	＞ 0.20~0.50	125~165	≥ 80	≥ 4	-	0t	1.0t
	H22 H32	H22 H32	＞ 0.50~1.50	125~165	≥ 80	≥ 5	-	0.5t	1.0t
	H22 H32	H22 H32	＞ 1.50~3.00	125~165	≥ 80	≥ 6	-	1.0t	1.5t
	H22 H32	H22 H32	＞ 3.00~6.00	125~165	≥ 80	≥ 8	-	1.0t	-
	H14	H14	＞ 0.20~0.50	145~185	≥ 120	≥ 2	-	0.5t	2.0t
	H14	H14	＞ 0.50~1.50	145~185	≥ 120	≥ 2	-	1.0t	2.0t
	H14	H14	＞ 1.50~3.00	145~185	≥ 120	≥ 3	-	1.0t	2.5t
	H14	H14	＞ 3.00~6.00	145~185	≥ 120	≥ 4	-	2.0t	-
	H24 H34	H24 H34	＞ 0.20~0.50	145~185	≥ 110	≥ 3	-	0.5t	1.5t
	H24 H34	H24 H34	＞ 0.50~1.50	145~185	≥ 110	≥ 4	-	1.0t	1.5t
	H24 H34	H24 H34	＞ 1.50~3.00	145~185	≥ 110	≥ 5	-	1.0t	2.0t
	H24 H34	H24 H34	＞ 3.00~6.00	145~185	≥ 110	≥ 6	-	2.0t	-
	H16	H16	＞ 0.20~0.50	165~205	≥ 145	≥ 1	-	1.0t	-
	H16	H16	＞ 0.50~1.50	165~205	≥ 145	≥ 2	-	1.5t	-
	H16	H16	＞ 1.50~3.00	165~205	≥ 145	≥ 3	-	2.0t	-
	H16	H16	＞ 3.00~4.00	165~205	≥ 145	≥ 3	-	2.5t	-
	H26 H36	H26 H36	＞ 0.20~0.50	165~205	≥ 135	≥ 2	-	1.0t	-
	H26 H36	H26 H36	＞ 0.50~1.50	165~205	≥ 135	≥ 3	-	1.5t	-
	H26 H36	H26 H36	＞ 1.50~3.00	165~205	≥ 135	≥ 4	-	2.0t	-
	H26 H36	H26 H36	＞ 3.00~4.00	165~205	≥ 135	≥ 4	-	2.5t	-
	H18	H18	＞ 0.20~0.50	≥ 185	≥ 165	≥1	-	1.5t	-
	H18	H18	＞ 0.50~1.50	≥ 185	≥ 165	≥ 2	-	2.5t	-
	H18	H18	＞ 1.50~3.00	≥ 185	≥ 165	≥ 2	-	3.0t	-
	H28 H38	H28 H38	＞ 0.20~0.50	≥ 185	≥ 160	≥ 1	-	1.5t	-
	H28 H38	H28 H38	＞ 0.50~1.50	≥ 185	≥ 160	≥ 2	-	2.5t	-
	H28 H38	H28 H38	＞ 1.50~3.00	≥ 185	≥ 160	≥ 3	-	3.0t	-

Grade	Suppply Status	Sample Status	Thickness/mm	T.S. Rm/( MPa)	Non-proportional Elongation Rp0.2/( MPa)	Elongation after fracture /% a (A 50mm)	Elongation after fracture /% a (A)
5005 5005A	H19	H19	＞ 0.20~0.50	≥ 205	≥ 185	≥ 1	-
	H19	H19	＞ 0.50~1.50	≥ 205	≥ 185	≥ 2	-
	H19	H19	＞ 1.50~3.00	≥ 205	≥ 185	≥ 2	-
	H112	H112	＞ 6.00~12.50	≥ 115	-	≥ 8	-
	H112	H112	＞ 12.50~40.00	≥ 105	-	-	10
	H112	H112	＞ 40.00~80.00	≥ 100	-	-	16
	F	-	＞ 2.5~150.00	-	-	-	-

Grade	Suppply Status	Sample Status	Thickness/mm	T.S. Rm/( MPa)	Non-proportional Elongation Rp0.2/( MPa)	Elongation after fracture /% a (A 50mm)	Elongation after fracture /% a (A)	Bending radius b (90°)	Bending radius b (180°)
5052	0 H111	0 H111	＞ 0.20~0.50	170~215	≥ 65	≥ 12	-	0t	0t
	0 H111	0 H111	＞ 0.50~1.50	170~215	≥ 65	≥ 14	-	0t	0t
	0 H111	0 H111	＞ 1.50~3.00	170~215	≥ 65	≥ 16	-	0.5t	0.5t
	0 H111	0 H111	＞ 3.00~6.00	170~215	≥ 65	≥ 18	-	1.0t	-
	0 H111	0 H111	＞ 6.00~12.50	165~215	≥ 65	≥ 19	-	2.0t	-
	0 H111	0 H111	＞ 12.50~80.00	165~215	≥ 65	-	≥ 18	-	-
	H12	H12	＞ 0.20~0.50	210~260	≥ 160	≥ 4	-	-	-
	H12	H12	＞ 0.50~1.50	210~260	≥ 160	≥ 5	-	-	-
	H12	H12	＞ 1.50~3.00	210~260	≥ 160	≥ 6	-	-	-
	H12	H12	＞ 3.00~6.00	210~260	≥ 160	≥ 8	-	-	-
	H22 H32	H22 H32	＞ 0.20~0.50	210~260	≥ 130	≥ 5	-	0.5t	1.5t
	H22 H32	H22 H32	＞ 0.50~1.50	210~260	≥ 130	≥ 6	-	1.0t	1.5t
	H22 H32	H22 H32	＞ 1.50~3.00	210~260	≥ 130	≥ 7	-	1.5t	1.5t
	H22 H32	H22 H32	＞ 3.00~6.00	210~260	≥ 130	≥10	-	1.5t	-
	H14	H14	＞ 0.20~0.50	230~280	≥ 180	≥ 3	-	-	-
	H14	H14	＞ 0.50~1.50	230~280	≥ 180	≥ 3	-	-	-
	H14	H14	＞ 1.50~3.00	230~280	≥ 180	≥ 4	-	-	-
	H14	H14	＞ 3.00~6.00	230~280	≥ 180	≥ 4	-	-	-
	H24 H34	H24 H34	＞ 0.20~0.50	230~280	≥ 150	≥ 4	-	0.5t	2.0t
	H24 H34	H24 H34	＞ 0.50~1.50	230~280	≥ 150	≥ 5	-	1.5t	2.0t
	H24 H34	H24 H34	＞ 1.50~3.00	230~280	≥ 150	≥ 6	-	2.0t	2.0t
	H24 H34	H24 H34	＞ 3.00~6.00	230~280	≥ 150	≥ 7	-	2.5t	-
	H16	H16	＞ 0.20~0.50	250~300	≥ 210	≥ 2	-	-	-
	H16	H16	＞ 0.50~1.50	250~300	≥ 210	≥ 3	-	-	-
	H16	H16	＞ 1.50~3.00	250~300	≥ 210	≥ 3	-	-	-
	H16	H16	＞ 3.00~6.00	250~300	≥ 210	≥ 3	-	-	-
	H26 H36	H26 H36	＞ 0.20~0.50	250~300	≥ 180	≥ 3	-	1.5t	-
	H26 H36	H26 H36	＞ 0.50~1.50	250~300	≥ 180	≥ 4	-	2.0t	-
	H26 H36	H26 H36	＞ 1.50~3.00	250~300	≥ 180	≥ 5	-	3.0t	-
	H26 H36	H26 H36	＞ 3.00~6.00	250~300	≥ 180	≥ 6	-	3.5t	-
	H18	H18	＞ 0.20~0.50	≥ 270	≥ 240	≥ 1	-	-	-
	H18	H18	＞ 0.50~1.50	≥ 270	≥ 240	≥ 2	-	-	-
	H18	H18	＞ 1.50~3.00	≥ 270	≥ 240	≥ 2	-	-	-
	H28 H38	H28 H38	＞ 0.20~0.50	≥ 270	≥ 210	≥ 3	-	-
	H28 H38	H28 H38	＞ 0.50~1.50	≥ 270	≥ 210	≥ 3	-	-	-
	H28 H38	H28 H38	＞ 1.50~3.00	≥ 270	≥ 210	≥ 4	-	-	-
	H112	H112	＞ 6.00~12.50	≥ 270	≥ 80	≥ 7	-	-	-
	H112	H112	＞ 12.50~40.00	≥ 270	≥ 70	-	≥ 10	-	-
	H112	H112	＞ 40.00~80.00	≥ 270	≥ 70	-	≥ 14	-	-
	F	-	＞ 2.50~150.00	-	-	-	-	-	-

Grade	Suppply Status	Sample Status	Thickness/mm	T.S. Rm/( MPa)	Non-proportional Elongation Rp0.2/( MPa)	Elongation after fracture /% a (A 50mm)	Elongation after fracture /% a (A)	Bending radius b (90°)	Bending radius b (180°)
5754	O H111	O H111	＞ 0.20~0.50	190~240	≥ 80	≥ 12	-	0t	0.5t
	O H111	O H111	＞ 0.50~1.50	190~240	≥ 80	≥ 14	-	0.5t	0.5t
	O H111	O H111	＞ 1.50~3.00	190~240	≥ 80	≥ 16	-	1.0t	1.0t
	O H111	O H111	＞ 3.00~6.00	190~240	≥ 80	≥ 18	-	1.0t	1.0t
	O H111	O H111	＞ 6.00~12.50	190~240	≥ 80	≥ 18	-	2.0t	-
	O H111	O H111	＞ 12.50~100.00	190~240	≥ 80	-	17	-	-
	H12	H12	＞ 0.20~0.50	220~270	≥ 170	≥ 4	-	-	-
	H12	H12	＞ 0.50~1.50	220~270	≥ 170	≥ 5	-	-	-
	H12	H12	＞ 1.50~3.00	220~270	≥ 170	≥ 6	-	-	-
	H12	H12	＞ 3.00~6.00	220~270	≥ 170	≥ 7	-	-	-
	H22 H32	H22 H32	＞ 0.20~0.50	220~270	≥ 130	≥ 7	-	0.5t	1.5t
	H22 H32	H22 H32	＞ 0.50~1.50	220~270	≥ 130	≥ 8	-	1.0t	1.5t
	H22 H32	H22 H32	＞ 1.50~3.00	220~270	≥ 130	≥ 10	-	1.5t	2.0t
	H22 H32	H22 H32	＞ 3.00~6.00	220~270	≥ 130	≥ 11	-	1.5t	-
	H14	H14	＞ 0.20~0.50	240~280	≥ 190	≥ 3	-	-	-
	H14	H14	＞ 0.50~1.50	240~280	≥ 190	≥ 3	-	-	-
	H14	H14	＞ 1.50~3.00	240~280	≥ 190	≥ 4	-	-	-
	H14	H14	＞ 3.00~6.00	240~280	≥ 190	≥ 4	-	-	-
	H24 H34	H24 H34	＞ 0.20~0.50	240~280	≥ 160	≥ 6	-	1.0t	2.5t
	H24 H34	H24 H34	＞ 0.50~1.50	240~280	≥ 160	≥ 6	-	1.5t	2.5t
	H24 H34	H24 H34	＞ 1.50~3.00	240~280	≥ 160	≥ 7	-	2.0t	2.5t
	H24 H34	H24 H34	＞ 3.00~6.00	240~280	≥ 160	≥ 8	-	2.5t	-
	H16	H16	＞ 0.20~0.50	265~305	≥ 220	≥ 2	-	-	-
	H16	H16	＞ 0.50~1.50	265~305	≥ 220	≥ 3	-	-	-
	H16	H16	＞ 1.50~3.00	265~305	≥ 220	≥ 3	-	-	-
	H16	H16	＞ 3.00~6.00	265~305	≥ 220	≥ 3	-	-	-
	H26 H36	H26 H36	＞ 0.20~0.50	265~305	≥ 190	≥ 4	-	1.5t	-
	H26 H36	H26 H36	＞ 0.50~1.50	265~305	≥ 190	≥ 4	-	2.0t	-
	H26 H36	H26 H36	＞ 1.50~3.00	265~305	≥ 190	≥ 5	-	3.0t	-
	H26 H36	H26 H36	＞ 3.00~6.00	265~305	≥ 190	≥ 6	-	3.5t	-
	H18	H18	＞ 0.20~0.50	≥ 290	≥ 250	≥ 1	-	-	-
	H18	H18	＞ 0.50~1.50	≥ 290	≥ 250	≥ 2	-	-	-
	H18	H18	＞ 1.50~3.00	≥ 290	≥ 250	≥ 2	-	-	-
	H28 H38	H28 H38	＞ 0.20~0.50	≥ 290	≥ 230	≥ 3	-	-	-
	H28 H38	H28 H38	＞ 0.50~1.50	≥ 290	≥ 230	≥ 3	-	-	-
	H28 H38	H28 H38	＞ 1.50~3.00	≥ 290	≥ 230	≥ 4		-	-
	H112	H112	6.00~12.50	≥ 190	≥ 100	≥ 12		-	-
	H112	H112	＞ 12.50~25.00	≥ 190	≥ 90	-	≥ 10	-	-
	H112	H112	＞ 25.00~40.00	≥ 190	≥ 80	-	≥ 12	-	-
	H112	H112	＞ 40.00~80.00	≥ 190	≥ 80	-	≥14	-	-
	F	-	＞ 4.50~150.00	-	-	-	-	-	-

Grade	Suppply Status	Sample Status	Thickness/mm	T.S. Rm/( MPa)	Non-proportional Elongation Rp0.2/( MPa)	Elongation after fracture /% a (A 50mm)	Elongation after fracture /% a (A)	Bending radius b (90°)	Bending radius b (180°)
5182	0H111	0H111	＞ 0.2~0.50	255~315	≥ 110	≥11	-	-	1.0t
	0H111	0H111	＞ 0.50~1.50	255~315	≥ 110	≥12	-	-	1.0t
	0H111	0H111	＞ 1.50~3.00	255~315	≥ 110	≥13	-	-	1.0t
	H19	H19	＞ 0.20~1.50	≥ 380	≥ 320	≥ 1	-	-	-
6016	T4	T4	0.40~3.00	170~250	80~140	≥24	-	0.5t	0.5t
6016	T6	T6	0.40~3.00	260~300	180~260	≥10	-	-	-

A. When both columns A50mm and A have values, A50mm is suitable for the thickness not greater than 12.5mm, and A is suitable for the thickness greater than 12.5mm.

B. t in the bending radius indicates the thickness of the materials. For the materials with both 90° and 180° bending, if the demander does not specify 90° or 180° bending, the bending radius can be selected by the supplier.

C. For 2014, 2024 and 2219 alloy O plates with a thickness > 12.5mm ~ 25.00mm, the tensile sample is machined from the core material and shall not have an aluminum coating.

Symbol	Temper grade (2)	Thickness (mm)	Tensile strength N/mm2	Proof stress N/mm2	Elongation(14) % A50mm	Elongation(14) % A	Thickness mm	Inside radiums
A 6061 P	O (4)	0.4 or over, up to and incl. 0.5	145 max.	-	14 min.	-	0.4 or over, up to and incl. 0.5 Over 0.5, up to and incl. 2.9 Over 2.9, up to and incl. 6.5 Over 6.5, up to and incl. 12	Flat on itself Thickness x 0.5 Thickness x 1 Thickness x 1.5
		Over 0.5, up to and incl. 2.9	145 max.	85 max.	16 min.	-	0.4 or over, up to and incl. 0.5 Over 0.5, up to and incl. 2.9 Over 2.9, up to and incl. 6.5 Over 6.5, up to and incl. 12	Flat on itself Thickness x 0.5 Thickness x 1 Thickness x 1.5
		Over 2.9, up to and incl. 13	145 max.	85 max.	18 min.	-	0.4 or over, up to and incl. 0.5 Over 0.5, up to and incl. 2.9 Over 2.9, up to and incl. 6.5 Over 6.5, up to and incl. 12	Flat on itself Thickness x 0.5 Thickness x 1 Thickness x 1.5
		Over 13, up to and incl. 25	145 max.	-	18 min.	-	0.4 or over, up to and incl. 0.5 Over 0.5, up to and incl. 2.9 Over 2.9, up to and incl. 6.5 Over 6.5, up to and incl. 12	Flat on itself Thickness x 0.5 Thickness x 1 Thickness x 1.5
		Over 25, up to and incl. 75	145 max.	-	16 min.	-	0.4 or over, up to and incl. 0.5 Over 0.5, up to and incl. 2.9 Over 2.9, up to and incl. 6.5 Over 6.5, up to and incl. 12	Flat on itself Thickness x 0.5 Thickness x 1 Thickness x 1.5
	T4	0.4 or over, up to and incl. 0.5	205 min.	-	14 min.	-	0.4 or over, up to and incl. 0.5 Over 0.5, up to and incl. 6	Thickness x 1 Thickness x 1.5
	T4	Over 0.5, up to and incl. 6.5	205 min.	110 min.	16 min.	-	0.4 or over, up to and incl. 0.5 Over 0.5, up to and incl. 6	Thickness x 1 Thickness x 1.5
	T451(5)	6.5 or over, up to and incl. 13	205 min.	110 min.	18 min.	-	-	-
		Over 13, up to and incl. 25	205 min.	110 min.	17 min.	-	-	-
		Over 25, up to and incl. 75	205 min.	110 min.	15 min.	-	-	-
	T42 (6)	0.4 or over, up to and incl. 0.5	205 min.	-	14 min.	-	-	-
		Over 0.5, up to and incl. 6.5	205 min.	95 min.	16 min.	-	-	-
		Over 6.5, up to and incl. 25	205 min.	95 min.	18 min.	-	-	-
		Over 25, up to and incl. 75	205 min.	95 min.	16 min.	-	-	-
	T6	0.4 or over, up to and incl. 0.5	295 min.	-	8 min.	-	0.4 or over, up to and incl. 0.5 Over 0.5, up to and incl. 1.6 Over 1.6, up to and incl. 2.9 Over 2.9, up to and incl. 6	Thickness x 1.5 Thickness x 2. Thickness x 2.5 Thickness x 3
	T6	Over 0.5, up to and incl. 6.5		180 min.	10 min.	-	0.4 or over, up to and incl. 0.5 Over 0.5, up to and incl. 1.6 Over 1.6, up to and incl. 2.9 Over 2.9, up to and incl. 6	Thickness x 1.5 Thickness x 2. Thickness x 2.5 Thickness x 3
	T651	6.5 or over, up to and incl. 13	295 min.	295min.	245min.	10 min.	-	-
		Over 13, up to and incl. 25	295 min.	295min.	245min.	9 min.	-	-
		Over 25, up to and incl. 50	295 min.	295min.	245min.	8 min.	-	-
		Over 50, up to and incl. 100	295 min.	295min.	245min.	6 min.	-	-
	T62(7)	0.4 or over, up to and incl. 0.5	295 min.	-	8 min.	-	-	-
		Over 0.5, up to and incl. 13	295 min.	245 min.	10 min.	-	-	-
		Over 13, up to and incl. 25	295 min.	245 min.	9 min.	-	-	-
		Over 25, up to and incl. 50	295 min.	240min.	8 min.	-	-	-
		Over 50, up to and incl. 75	295 min.	240 min.	6 min.	-	-	-
A 6082 P	O (4)	0.4 or over, up to and incl. 0.5	150 max.	85 max.	14 min.	-	0.4 or over, up to and incl. 0.5Over 0.5, up to and incl. 2.9 Over 2.9, up to and incl. 6.5 Over 6.5, up to and incl. 12	Thickness x 0.5Thickness x 1 Thickness x 1.5 Thickness x 2.5
		Over 0.5, up to and incl. 2.9	150 max.	85 max.	16 min.	-	0.4 or over, up to and incl. 0.5Over 0.5, up to and incl. 2.9 Over 2.9, up to and incl. 6.5 Over 6.5, up to and incl. 12	Thickness x 0.5Thickness x 1 Thickness x 1.5 Thickness x 2.5
		Over 2.9, up to and incl. 13	150 max.	85 max.	18 min.	-	0.4 or over, up to and incl. 0.5Over 0.5, up to and incl. 2.9 Over 2.9, up to and incl. 6.5 Over 6.5, up to and incl. 12	Thickness x 0.5Thickness x 1 Thickness x 1.5 Thickness x 2.5
		Over 13, up to and incl. 25	150 max.	-	17 min.	16 min.	0.4 or over, up to and incl. 0.5Over 0.5, up to and incl. 2.9 Over 2.9, up to and incl. 6.5 Over 6.5, up to and incl. 12	Thickness x 0.5Thickness x 1 Thickness x 1.5 Thickness x 2.5
	T4	0.4 or over, up to and incl. 0.5	205 min.	110 min.	12 min.	-	0.4 or over, up to and incl. 0.5Over 0.5, up to and incl. 6.5	Thickness x 1.5Thickness x 2
	T4	Over 0.5, up to and incl. 6.5	205 min.	110 min.	15 min.	-	0.4 or over, up to and incl. 0.5Over 0.5, up to and incl. 6.5	Thickness x 1.5Thickness x 2
	T451(5)	6.5 or over, up to and incl. 13	205 min.	110min.	14 min.	-	-	-
		Over 13, up to and incl. 25	205 min.	110min.	14 min.	13 min.	-	-
		Over 25, up to and incl. 75	205 min.	110min.	-	12 min.	-	-
	T42 (6)	0.4 or over, up to and incl. 0.5	205 min.	95 min.	12 min.	-	-	-
		Over 0.5, up to and incl. 6.5	205 min.	95 min.	15 min.	-	-	-
		Over 6.5, up to and incl. 25	205 min.	95 min.	14 min.	13 min.	-	-
		Over 25, up to and incl. 75	205 min.	95 min.	13 min.	12 min.	-	-
	T6	0.4 or over, up to and incl. 0.5	310 min.	260 min.	6 min.	-	0.4 or over, up to and incl. 1.6Over 1.6, up to and incl. 2.9 Over 2.9, up to and incl. 6.5	Thickness x 2.5Thickness x 3.5 Thickness x 4.5
	T6	Over 0.5, up to and incl. 6.5	310 min.	260 min.	10 min.	-	0.4 or over, up to and incl. 1.6Over 1.6, up to and incl. 2.9 Over 2.9, up to and incl. 6.5	Thickness x 2.5Thickness x 3.5 Thickness x 4.5
	T651	6.5 or over, up to and incl. 13	300 min.	255 min.	9 min.	-	-	-
		Over 13, up to and incl. 50	295 min.	240 min.	9 min.	8 min.	-	-
		Over 50, up to and incl. 100	295 min.	240 min.	-	7 min.	-	-
	T62 (7)	0.4 or over, up to and incl. 0.5	310 min.	260 min.	6 min.	-	-	-
		Over 0.5, up to and incl. 6.5	310min.	260 min.	10 min.	-	-	-
		Over 6.5, up to and incl. 25	300min.	255 min.	9 min.	8 min.	-	-
		Over 25, up to and incl. 50	295min.	240 min.	-	8 min.	-	-
		Over 50, up to and incl.	295min.	240 min.	-	7 min.	-	-

Alloy No.

Clad materials

Ga,V,NI,B,zR,etc.

Others Individual

Others Total

6061

0.40 to 0.8

0.7 max.

0.15 to 0.40

0.15 max.

0.8 to 1.2

0.04 to 0.35

0.25 max.

0.15 max.

0.05 max.

0.15 max.

Remainder

6082

0.7 to 1.3

0.50 max.

0.10 max.

0.40 to 1.0

0.6 to 1.2

0.25 max.

0.20 max.

0.10 max.

0.05 max.

0.15 max.

Remainder

WSS-M2A175

	A1/A2	A3	A4	A5/A6
Si	0.55-0.95	0.50-1.00	0.30-0.60	0.45-0.75
Fe	0.30	0.30	0.30	0.60
Cu	0.50-0.80	0.20	0.20	0.20-0.30
Mn	0.30	0.15	0.15	0.10
Mg	0.55-0.95	0.40-0.80	0.40-0.70	0.75-1.00
Cr	0.10	0.05	0.05	0.05-0.25
Zn	0.10	0.10	0.10	0.10
Ti	0.10	0.10	0.10	0.10
Others (each)	0.05	0.05	0.05	0.05
Others (total)	0.15	0.15	0.15	0.15

WSS-M2A175	A1/A2	A3	A4	A5	A6
Yield Strength, MPa (0.2% offset)	125-185	125-185	170-210	83 max	83 max
Yield Strength at 180 days*, MPa,max	195	195	210	N/A	N/A
Ultimate Tensile Strength, MPa	220-300	220-300	240-290	152 max	152 max
Uniform Elongation,%	19	19	15	N/A	N/A
Total Elongation,%	N/A	N/A	N/A
ravg	0.50	0.50	0.50	15	15
r45	0.30	0.30	Report Only	N/A	N/A
Yield Strength After 2% Strain + T81, Mpa	260	N/A	N/A	N/A	N/A
Yield Strength (T82),MPa	260	N/A	N/A	N/A	N/A
Yield Strength (T72),MPa	N/A	N/A	N/A	200	N/A
Yield Strength (T52),MPa	N/A	N/A	N/A	N/A	180
Bendability After T82, r/t, max	0.40	N/A	Report Only	N/A	N/A
Bendability After T72, r/t, max (L-direction)	N/A	N/A	N/A	0.30	N/A
Bendability After T52, r/t, max (L-direction)	N/A	N/A	N/A	N/A	0.30
Long Term Thermal Stability After T81, YS MPa	N/A	N/A	+/-25	N/A	N/A
Minimum Retained Ductillity After T81, %	N/A	N/A	14	N/A	N/A
Minimum Retained Ductillity After T81, %	10	N/A	N/A	N/A	N/A

Legierung Alloy	GS 93033	VDA 239-200	GS 93013
AL5(AIMg)	AL5-IIC	AL5-IIC	EN AW-5754(ALMg3)
	AL5-STD	AL5-STD
	AL5-STO	-
	AL5-HYB	-
AL6(AIMgSI)	AL6-OUT	AL6-OUT	AISi0,6Mg0,5-Fo
	AL6-HYF	-
	AL6-HYC	-
	AL6-CHA	-

Grade	Condition	Thickness (mm)	Tensile strength Rm MPa	Yield point Rp0.2 MPa	Elongation at break A80mm %	Uniform elongation Ag %	Vertical anisotropy r 10%	Strain hardening exponent n5%	Yield point ratio RpRm
AL5-IIC 1)	O/H111	0,50 bis/to 4,00	≥200	85 bis/to 130	≥20	≥18	≥0,55	≥0,26	-
		4,00 bis/to 9,00	≥200	90 bis/to 130	≥19	≥16	≥0,55	≥0,26	-
AL5-STD 2)	O/H111	0,50 bis/to 4,00	≥255	110 bis/to 160	≥23	≥20	≥0,60	≥0,26	≥0,60
AL5-STO 2)	O/H111	0,50 bis/to 4,00	≥255	110 bis/to 160	≥24	≥21	≥0,60	≥0,30	≥0,60
AL5-HYB 2)	O/H111	1,40 bis/to 1,60	≥250	105 bis/to 150	≥26	≥23	≥0,60	≥0,28	≥0,55

1) This alloy is resistant to intercrystalline corrosion. In case of doubt the resistance shall be proven as described in section 7.4

2) This alloy is susceptible to intercrystalline corrosion (see section 7.4)

Grade	Layers	Si	Fe	Cu	Mn	Mg	Cr	Zn	Ti	Al
Grade	Layers	Percent by weight %33339
AL5-IIC ¹⁾		≤0,40	≤0,40	≤0,10	≤0,55	2,6 bis/to 3,2	≤0,30	≤0,20	≤0,15	Remain
AL5-STD²⁾		≤0,20	≤0,35	≤0,15	0,20 bis/to 0,50	4,0 bis/to 5,0	≤0,10	≤0,25	≤0,10	Remain
AL5-STO²⁾		≤0,20	≤0,35	≤0,15	≤0,50	4,0 bis/to 5,0	≤0,10	≤0,25	≤0,10	Remain
AL5-HYB²⁾	Kern³⁾ Core³⁾ AIMg 5,3	≤0,30	≤0,35	≤0,15	≤0,50	5,0 bis/to 5,50	≤0,10	≤0,25	≤0,15	Remain
AL5-HYB²⁾	Clad layer⁴⁾ AIMg1	≤0,30	≤0,50	≤0,20	≤0,20	0,70 bis/to 1,10	≤0,10	≤0,25	≤0,15	Remain

1) This alloy is resistant to intercrystalline corrosion. In case of doubt the resistance must be proven as described in section 7.4.

2) This alloy is susceptible to intercrystalline corrosion (see section 7.4)

3) Thickness of the core: 80% to 90% of the norminal thickness.

4) Thickness of the clad layer per side: 5% to 10% of the nominal thickness.

Grade	Si	Fe	Cu	Mn	Mg	Cr	Zn	Ti	V	AI
AL6-OUT AL6-HYF AL6-HYC AL6-CHA	0,50 bis/to 1,50	≤0,35	≤0,25	≤0,20	2,50 bis/to 0,90	≤0,15	≤0,10	≤0,15	≤0,10	Remain

Grade	Condition	Thickness (mm)	Tensile strength Rm MPa	Yield point Rp0.2 MPa	Elongation at break A80mm %	Uniform elongation Ag %	Vertical anisotropy r 10%	Strain hardening exponent n5%	Yield point ratio RpRm
AL6-OUT 1)	T4	0,90 bis/to 1,50	≥ 190	90 bis/to 130 ²⁾³⁾	≥ 24	≥ 20	≥ 0,60	≥ 0,26	≥ 0,55
AL6-HYF	T4	＜3,0	≥220	120 bis/to 170 ²⁾⁴⁾	≥ 22	≥ 18	≥ 0,55	≥ 0,23	≥ 0,60
AL6-HYC	T61	＜3,0	≥ 220	150 bis/to 200	≥18	≥ 14	≥ 0,50	≥ 0,18	≥ 0,80
AL6-CHA	T4	2,50 bis/to 5,0	≥ 200	130 bis/to 170 ²⁾⁵⁾	≥ 200	≥ 16	-	-	≥ 0,70

1) The determination of suitablility for hemming is performed according to AA-0518. Target value: minimum evaluation level 6 according to method A.

2) Test carried out by supplier between 3 and 10 days after solution heat treatment.

3) Rp0,2 max. 115 MPa and Rm min. 180 MPa at time of test.

4) Rp0,2 max. 115 MPa and Rm min. 210 MPa at time of test.

5) Rp0,2 max. 115 MPa and Rm min. 190 MPa at time of test.

Grade	Condition	Tensile strength Rm MPa	Yield point Rp0.2 MPa	Elongation at break A80mm %	Standardized bending angle (t _ref =1,5mm) α _norm ^o
AL6-OUT	T64 ¹⁾⁴⁾	≥ 260	≥ 195	≥ 14	-
AL6-HYF	T64 ²⁾⁴⁾	≥ 265	≥ 220	≥ 14	≥ 80 ⁵⁾
AL6-HYC	T64 ²⁾⁴⁾	≥ 265	≥ 220	≥ 14	≥ 110 ⁵⁾
AL6-CHA	T6 ³⁾	≥ 280	≥ 260	≥ 10	-

1) Thermal treatment (185±2)℃ for a dwell time of 20 min, 2% per-strain.

2) Thermal treatment (180±2)℃ for a dwell time of 20 min, 2% per-strain.

3) Thermal treatment (205±2)℃, 45 min heating time, 60 min dwell time, 50 min cooling time.

4) The heating of the specimen to the required temperature and the cooling after duration shall be conducted fast enough to avoid additional heat treatment effects due to the heating and cooling process.

5) Specimen transverse to rolling direction. Thermal treatment (180±2)℃ for dwell time of 20 min, 10% pre-strain. Test according to VDA 238-100. Bending line parallel to rolling direction.