EN AW-6262

Round bar

A technical illustration of the product with dimensions of the material EN AW-6262 from the material Aluminum in the shape Round bar
  • Form Round bar
  • Material Aluminum
  • Material EN AW-6262
  • Material chemically EN 573-3 Aluminium Al Mg1 Si Pb
An image of the material EN AW-6262 from the material Aluminum in the shape Round bar
A technical illustration of the product of the material EN AW-6262 from the material Aluminum in the shape Round bar

Features of this material

  • Age-hardenable alloy with high mechanical properties
  • medium fatigue strength
  • free cutting alloy, very good machinability, short chips
  • good corrosion resistance

Information about the material

  • Aviation
    Aviation No
  • Chemical specifications
    Be (from) 0
    Be (to) 0
    Bi (to) 0,7
    Co (from) 0
    Co (to) 0
    Cr (from) 0,04
    Cr (to) 0,14
    Cu (from) 0,15
    Cu (to) 0,4
    Fe (to) 0,7
    Mg (from) 0,8
    Mg (to) 1,2
    Mn (to) 0,15
    Other max. 0,05
    Pb (from) 0,4
    Pb (to) 0,7
    Rest Al
    Si (from) 0,4
    Si (to) 0,8
    Ti (to) 0,15
    Total max. 0,15 a) b)
    Zn (to) 0,25
  • Corrosion resistance
    Normal atmosphere 2
    Seawater atmosphere 3
  • 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 5
    Bending delivery conditions T6
    Extruding 3
    Press 5
    Press conditions T6
    Upsetting (Conditional) 5
    Upsetting conditions T6
  • Heat treatment - Softannealing
    Heating time max. 3 h
    Heating time min. 1 h
    Annealing temperature max. 420 °C
    Annealing temperature min. 410 °C
  • Heat treatment - Solution annealing
    Heat ageing max. 12 h
    Heat ageing min. 8 h
    Heating temperature min. 171 °C
    Heating time max. 12 h
    Heating time min. 8 h
    Solution annealing min. 538 °C
  • Material
    Material chemically EN 573-3 Aluminium Al Mg1 Si Pb
  • physical properties
    Coefficient of thermal expansion from 20 to 100°C 23.4 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 300°C 25 K⁻¹10⁻⁶
    Density 2.7 g/cm³
    Specific heat 890 J/(kg·K)
    Thermal conductivity max. 170 W/m*K
  • Soldering
    Brazing 5
    Brazing with flux 5
    Soft soldering 5
    Soft soldering with flux 5
  • Welding
    Friction stir welding 5
    Friction welding 5
    Laser 5
    MIG 5
    Plasma 5
    Resistance spot welding 5
    TIG 5
  • Aviation
    Aviation No
  • Chemical specifications
    Be (from) 0
    Be (to) 0
    Bi (to) 0,7
    Co (from) 0
    Co (to) 0
    Cr (from) 0,04
    Cr (to) 0,14
    Cu (from) 0,15
    Cu (to) 0,4
    Fe (to) 0,7
    Mg (from) 0,8
    Mg (to) 1,2
    Mn (to) 0,15
    Other max. 0,05
    Pb (from) 0,4
    Pb (to) 0,7
    Rest Al
    Si (from) 0,4
    Si (to) 0,8
    Ti (to) 0,15
    Total max. 0,15 a) b)
    Zn (to) 0,25
  • Corrosion resistance
    Normal atmosphere 2
    Seawater atmosphere 3
  • 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 5
    Bending delivery conditions T6
    Extruding 3
    Press 5
    Press conditions T6
    Upsetting (Conditional) 5
    Upsetting conditions T6
  • Heat treatment - Softannealing
    Heating time max. 3 h
    Heating time min. 1 h
    Annealing temperature max. 420 °C
    Annealing temperature min. 410 °C
  • Heat treatment - Solution annealing
    Heat ageing max. 12 h
    Heat ageing min. 8 h
    Heating temperature min. 171 °C
    Heating time max. 12 h
    Heating time min. 8 h
    Solution annealing min. 538 °C
  • Material
    Material chemically EN 573-3 Aluminium Al Mg1 Si Pb
  • physical properties
    Coefficient of thermal expansion from 20 to 100°C 23.4 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 300°C 25 K⁻¹10⁻⁶
    Density 2.7 g/cm³
    Specific heat 890 J/(kg·K)
    Thermal conductivity max. 170 W/m*K
  • Soldering
    Brazing 5
    Brazing with flux 5
    Soft soldering 5
    Soft soldering with flux 5
  • Welding
    Friction stir welding 5
    Friction welding 5
    Laser 5
    MIG 5
    Plasma 5
    Resistance spot welding 5
    TIG 5
  • Aviation
    Aviation No
  • Chemical specifications
    Be (from) 0
    Be (to) 0
    Bi (to) 0,7
    Co (from) 0
    Co (to) 0
    Cr (from) 0,04
    Cr (to) 0,14
    Cu (from) 0,15
    Cu (to) 0,4
    Fe (to) 0,7
    Mg (from) 0,8
    Mg (to) 1,2
    Mn (to) 0,15
    Other max. 0,05
    Pb (from) 0,4
    Pb (to) 0,7
    Rest Al
    Si (from) 0,4
    Si (to) 0,8
    Ti (to) 0,15
    Total max. 0,15 a) b)
    Zn (to) 0,25
  • Corrosion resistance
    Normal atmosphere 2
    Seawater atmosphere 3
  • 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 5
    Bending delivery conditions T6
    Extruding 3
    Press 5
    Press conditions T6
    Upsetting (Conditional) 5
    Upsetting conditions T6
  • Heat treatment - Softannealing
    Heating time max. 3 h
    Heating time min. 1 h
    Annealing temperature max. 420 °C
    Annealing temperature min. 410 °C
  • Heat treatment - Solution annealing
    Heat ageing max. 12 h
    Heat ageing min. 8 h
    Heating temperature min. 171 °C
    Heating time max. 12 h
    Heating time min. 8 h
    Solution annealing min. 538 °C
  • Material
    Material chemically EN 573-3 Aluminium Al Mg1 Si Pb
  • physical properties
    Coefficient of thermal expansion from 20 to 100°C 23.4 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 300°C 25 K⁻¹10⁻⁶
    Density 2.7 g/cm³
    Specific heat 890 J/(kg·K)
    Thermal conductivity max. 170 W/m*K
  • Soldering
    Brazing 5
    Brazing with flux 5
    Soft soldering 5
    Soft soldering with flux 5
  • Welding
    Friction stir welding 5
    Friction welding 5
    Laser 5
    MIG 5
    Plasma 5
    Resistance spot welding 5
    TIG 5

1 very good
2 good
3 moderate
4 poor
5 unsuited
0 Not specified