EN AW-2014 Round bar | Aluminum

Aviation

No

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

Aviation

No

Chemical specifications

Be (from)	0
Be (to)	0
Co (from)	0
Co (to)	0
Cr (to)	0,1
Cu (from)	3,9
Cu (to)	5
Fe (to)	0,7
Mg (from)	0,2
Mg (to)	0,8
Mn (from)	0,4
Mn (to)	1,2
Other	max. 0,05
Rest	Al
Si (from)	0,5
Si (to)	1,2
Ti footnote reference	f)
Ti (to)	0,15
Total	max. 0,15 a) b) f)
Zn (to)	0,25
Zr footnote reference	f)

Corrosion resistance

Normal atmosphere	4
Seawater atmosphere	4,5

Cutting

Laser cutting	4,5
Plasma cutting	4,5
Sawing	2
Shear cutting	2
Waterjet cutting	1

Food industry

suitable according to DIN EN 602

No

Forming

Bending	4
Deep drawing (conditional)	4
Drop forging	4
Extruding	4
Open die forging	4
Press	4
Upsetting (Conditional)	4

Heat treatment - Softannealing

Heating time max.	3 h
Heating time min.	0.5 h
Annealing temperature max.	420 °C
Annealing temperature min.	350 °C

Heat treatment - Solution annealing

Cold ageing condition	Lagerung bei Raumtemperatur T3...; T4...., oder
Cold ageing max.	8 d
Cold ageing min.	5 d
Heat ageing max.	16 h
Heat ageing min.	24 h
Heating temperature max.	180 °C
Heating temperature min.	160 °C
Heating time max.	3 h
Heating time min.	2 h
Solution annealing max.	505 °C
Solution annealing min.	495 °C

Machining / Machinability

dimensional stability	3
Eroding	1
hardened	1

Material

Material chemically EN 573-3	Aluminium Al Cu Si Mn
DIN	3,1255
DIN (old designation)	AlCuSiMn
France AFNOR	NF -A-U4SG
Italy UNI	9002/3 [P-AlCu4,4SiMnMg]
Norway	17105 [AlCu4SiMg]
Spain	L-3130 [Al-4CuSiMg]
Sweden	144.338
United Kingdom BS	BS - H15

physical properties

Coefficient of thermal expansion from 20 to 100°C	22.5 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 200°C	23.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from 20 to 300°C	24.4 K⁻¹10⁻⁶
Coefficient of thermal expansion from -50 to 20°C	20.8 K⁻¹10⁻⁶
Density	2.8 g/cm³
Electrical conductivity max.	24 m/Ω*mm²
Electrical conductivity min.	21 m/Ω*mm²
Specific heat	880 J/(kg·K)
Thermal conductivity max.	200 W/m*K
Thermal conductivity min.	140 W/m*K

Soldering

Brazing	5
Brazing with flux	5
Soft soldering	5
Soft soldering with flux	5

Welding

Friction stir welding	2
Friction welding	2
Laser	5
MIG	5
Plasma	5
Resistance spot welding	2
TIG	5

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