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EN AW-5086

Round bar

A technical illustration of the product with dimensions of the material EN AW-5086 from the material Aluminum in the shape Round bar
  • Form Round bar
  • Material Aluminum
  • Material EN AW-5086
  • Material chemically EN 573-3 Aluminium Al Mg4
  • DIN 3.3545
An image of the material EN AW-5086 from the material Aluminum in the shape Round bar
A technical illustration of the product of the material EN AW-5086 from the material Aluminum in the shape Round bar

Features of this material

  • non-age-hardenable alloy, with high mechanical properties
  • high fatigue strength
  • very suitable for use in the food industry

Features of this material

  • good cold formability in soft annealed condition: O
  • very good corrosion resistance to seawater and sea atmosphere

Information about the material

  • Aviation
    Aviation No
  • Chemical specifications
    Be (from) 0
    Be (to) 0
    Co (from) 0
    Co (to) 0
    Cr (from) 0.05
    Cr (to) 0.25
    Cu (to) 0.1
    Fe (to) 0.5
    Mg (from) 3.5
    Mg (to) 4.5
    Mn (from) 0.2
    Mn (to) 0.7
    Other max. 0,05
    Rest Al
    Si (to) 0.4
    Ti (to) 0.15
    Total max. 0,15 a) b)
    Zn (to) 0.25

    a) Schließt alle aufgeführten Elemente ein, für die keine Grenzwerte angegeben sind. b) Die Summe dieser "Anderen Beimengungen", deren Masseanteil einzeln 0,010 % oder mehr beträgt, wird mit zwei Dezimalstellen vor der Summenbildung ausgedrückt.

  • Corrosion resistance
    Normal atmosphere 2.5
    Seawater atmosphere 3.5
  • Cutting
    Laser cutting 4
    Plasma cutting 2
    Sawing 3
    Shear cutting 2
    Waterjet cutting 1
  • Food industry
    suitable according to DIN EN 602 No
  • Forming
    Bending 2
    Deep drawing (conditional) 3
    Extruding 4
    Press 3
    Upsetting (Conditional) 3
  • Heat treatment - Softannealing
    Heating time max. 2 h
    Heating time min. 1 h
    Annealing temperature max. 420 °C
    Annealing temperature min. 380 °C
    Cooling conditions Ofenabkühlung, unkontrolliert
    Mit Temperatur ist Metalltemperatur gemeint.
    Um eine gute Planheit nach dem Glühen zu erreichen ist zu empfehlen unter Belastung zu glühen.
  • Material
    Material chemically EN 573-3 Aluminium Al Mg4
    DIN 3.3545
    DIN (old designation) AlMg4Mn
    France AFNOR NF-A-G4MC
    Italy UNI 9005/4 [P-AlMg4MnCr]
    Spain L-3322 [Al-4Mg]
  • physical properties
    Coefficient of thermal expansion from 20 to 100°C 23.8 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 200°C 24.7 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 300°C 25.8 K⁻¹10⁻⁶
    Coefficient of thermal expansion from -50 to 20°C 22 K⁻¹10⁻⁶
    Density 2.66 g/cm³
    Electrical conductivity max. 19 m/Ω*mm²
    Electrical conductivity min. 17 m/Ω*mm²
    Specific heat 900 J/(kg·K)
    Thermal conductivity max. 140 W/m*K
    Thermal conductivity min. 120 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 2
    MIG 2
    Plasma 2
    Resistance spot welding 3
    TIG 2
  • Aviation
    Aviation No
    Aviation No
  • Chemical specifications
    Be (from) 0
    Be (from) 0
    Be (to) 0
    Be (to) 0
    Co (from) 0
    Co (from) 0
    Co (to) 0
    Co (to) 0
    Cr (from) 0.05
    Cr (from) 0.05
    Cr (to) 0.25
    Cr (to) 0.25
    Cu (to) 0.1
    Cu (to) 0.1
    Fe (to) 0.5
    Fe (to) 0.5
    Mg (from) 3.5
    Mg (from) 3.5
    Mg (to) 4.5
    Mg (to) 4.5
    Mn (from) 0.2
    Mn (from) 0.2
    Mn (to) 0.7
    Mn (to) 0.7
    Other max. 0,05
    Other max. 0,05
    Rest Al
    Rest Al
    Si (to) 0.4
    Si (to) 0.4
    Ti (to) 0.15
    Ti (to) 0.15
    Total max. 0,15 a) b)
    Total max. 0,15 a) b)
    Zn (to) 0.25
    Zn (to) 0.25

    a) Schließt alle aufgeführten Elemente ein, für die keine Grenzwerte angegeben sind. b) Die Summe dieser "Anderen Beimengungen", deren Masseanteil einzeln 0,010 % oder mehr beträgt, wird mit zwei Dezimalstellen vor der Summenbildung ausgedrückt.

  • Corrosion resistance
    Normal atmosphere 2.5
    Normal atmosphere 2.5
    Seawater atmosphere 3.5
    Seawater atmosphere 3.5
  • Cutting
    Laser cutting 4
    Laser cutting 4
    Plasma cutting 2
    Plasma cutting 2
    Sawing 3
    Sawing 3
    Shear cutting 2
    Shear cutting 2
    Waterjet cutting 1
    Waterjet cutting 1
  • Food industry
    suitable according to DIN EN 602 No
    suitable according to DIN EN 602 No
  • Forming
    Bending 2
    Bending 2
    Deep drawing (conditional) 3
    Deep drawing (conditional) 3
    Extruding 4
    Extruding 4
    Press 3
    Press 3
    Upsetting (Conditional) 3
    Upsetting (Conditional) 3
  • Heat treatment - Softannealing
    Heating time max. 2 h
    Heating time max. 2 h
    Heating time min. 1 h
    Heating time min. 1 h
    Annealing temperature max. 420 °C
    Annealing temperature max. 420 °C
    Annealing temperature min. 380 °C
    Annealing temperature min. 380 °C
    Cooling conditions Ofenabkühlung, unkontrolliert
    Mit Temperatur ist Metalltemperatur gemeint.
    Um eine gute Planheit nach dem Glühen zu erreichen ist zu empfehlen unter Belastung zu glühen.
    Cooling conditions Ofenabkühlung, unkontrolliert
    Mit Temperatur ist Metalltemperatur gemeint.
    Um eine gute Planheit nach dem Glühen zu erreichen ist zu empfehlen unter Belastung zu glühen.
  • Material
    Material chemically EN 573-3 Aluminium Al Mg4
    Material chemically EN 573-3 Aluminium Al Mg4
    DIN 3.3545
    DIN 3.3545
    DIN (old designation) AlMg4Mn
    DIN (old designation) AlMg4Mn
    France AFNOR NF-A-G4MC
    France AFNOR NF-A-G4MC
    Italy UNI 9005/4 [P-AlMg4MnCr]
    Italy UNI 9005/4 [P-AlMg4MnCr]
    Spain L-3322 [Al-4Mg]
    Spain L-3322 [Al-4Mg]
  • physical properties
    Coefficient of thermal expansion from 20 to 100°C 23.8 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 100°C 23.8 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 200°C 24.7 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 200°C 24.7 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 300°C 25.8 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 300°C 25.8 K⁻¹10⁻⁶
    Coefficient of thermal expansion from -50 to 20°C 22 K⁻¹10⁻⁶
    Coefficient of thermal expansion from -50 to 20°C 22 K⁻¹10⁻⁶
    Density 2.66 g/cm³
    Density 2.66 g/cm³
    Electrical conductivity max. 19 m/Ω*mm²
    Electrical conductivity max. 19 m/Ω*mm²
    Electrical conductivity min. 17 m/Ω*mm²
    Electrical conductivity min. 17 m/Ω*mm²
    Specific heat 900 J/(kg·K)
    Specific heat 900 J/(kg·K)
    Thermal conductivity max. 140 W/m*K
    Thermal conductivity max. 140 W/m*K
    Thermal conductivity min. 120 W/m*K
    Thermal conductivity min. 120 W/m*K
  • Soldering
    Brazing 5
    Brazing 5
    Brazing with flux 5
    Brazing with flux 5
    Soft soldering 5
    Soft soldering 5
    Soft soldering with flux 5
    Soft soldering with flux 5
  • Welding
    Friction stir welding 2
    Friction stir welding 2
    Friction welding 2
    Friction welding 2
    Laser 2
    Laser 2
    MIG 2
    MIG 2
    Plasma 2
    Plasma 2
    Resistance spot welding 3
    Resistance spot welding 3
    TIG 2
    TIG 2
  • Aviation
    Aviation No
    Aviation No
  • Chemical specifications
    Be (from) 0
    Be (from) 0
    Be (to) 0
    Be (to) 0
    Co (from) 0
    Co (from) 0
    Co (to) 0
    Co (to) 0
    Cr (from) 0.05
    Cr (from) 0.05
    Cr (to) 0.25
    Cr (to) 0.25
    Cu (to) 0.1
    Cu (to) 0.1
    Fe (to) 0.5
    Fe (to) 0.5
    Mg (from) 3.5
    Mg (from) 3.5
    Mg (to) 4.5
    Mg (to) 4.5
    Mn (from) 0.2
    Mn (from) 0.2
    Mn (to) 0.7
    Mn (to) 0.7
    Other max. 0,05
    Other max. 0,05
    Rest Al
    Rest Al
    Si (to) 0.4
    Si (to) 0.4
    Ti (to) 0.15
    Ti (to) 0.15
    Total max. 0,15 a) b)
    Total max. 0,15 a) b)
    Zn (to) 0.25
    Zn (to) 0.25

    a) Schließt alle aufgeführten Elemente ein, für die keine Grenzwerte angegeben sind. b) Die Summe dieser "Anderen Beimengungen", deren Masseanteil einzeln 0,010 % oder mehr beträgt, wird mit zwei Dezimalstellen vor der Summenbildung ausgedrückt.

  • Corrosion resistance
    Normal atmosphere 2.5
    Normal atmosphere 2.5
    Seawater atmosphere 3.5
    Seawater atmosphere 3.5
  • Cutting
    Laser cutting 4
    Laser cutting 4
    Plasma cutting 2
    Plasma cutting 2
    Sawing 3
    Sawing 3
    Shear cutting 2
    Shear cutting 2
    Waterjet cutting 1
    Waterjet cutting 1
  • Food industry
    suitable according to DIN EN 602 No
    suitable according to DIN EN 602 No
  • Forming
    Bending 2
    Bending 2
    Deep drawing (conditional) 3
    Deep drawing (conditional) 3
    Extruding 4
    Extruding 4
    Press 3
    Press 3
    Upsetting (Conditional) 3
    Upsetting (Conditional) 3
  • Heat treatment - Softannealing
    Heating time max. 2 h
    Heating time max. 2 h
    Heating time min. 1 h
    Heating time min. 1 h
    Annealing temperature max. 420 °C
    Annealing temperature max. 420 °C
    Annealing temperature min. 380 °C
    Annealing temperature min. 380 °C
    Cooling conditions Ofenabkühlung, unkontrolliert
    Mit Temperatur ist Metalltemperatur gemeint.
    Um eine gute Planheit nach dem Glühen zu erreichen ist zu empfehlen unter Belastung zu glühen.
    Cooling conditions Ofenabkühlung, unkontrolliert
    Mit Temperatur ist Metalltemperatur gemeint.
    Um eine gute Planheit nach dem Glühen zu erreichen ist zu empfehlen unter Belastung zu glühen.
  • Material
    Material chemically EN 573-3 Aluminium Al Mg4
    Material chemically EN 573-3 Aluminium Al Mg4
    DIN 3.3545
    DIN 3.3545
    DIN (old designation) AlMg4Mn
    DIN (old designation) AlMg4Mn
    France AFNOR NF-A-G4MC
    France AFNOR NF-A-G4MC
    Italy UNI 9005/4 [P-AlMg4MnCr]
    Italy UNI 9005/4 [P-AlMg4MnCr]
    Spain L-3322 [Al-4Mg]
    Spain L-3322 [Al-4Mg]
  • physical properties
    Coefficient of thermal expansion from 20 to 100°C 23.8 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 100°C 23.8 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 200°C 24.7 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 200°C 24.7 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 300°C 25.8 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 300°C 25.8 K⁻¹10⁻⁶
    Coefficient of thermal expansion from -50 to 20°C 22 K⁻¹10⁻⁶
    Coefficient of thermal expansion from -50 to 20°C 22 K⁻¹10⁻⁶
    Density 2.66 g/cm³
    Density 2.66 g/cm³
    Electrical conductivity max. 19 m/Ω*mm²
    Electrical conductivity max. 19 m/Ω*mm²
    Electrical conductivity min. 17 m/Ω*mm²
    Electrical conductivity min. 17 m/Ω*mm²
    Specific heat 900 J/(kg·K)
    Specific heat 900 J/(kg·K)
    Thermal conductivity max. 140 W/m*K
    Thermal conductivity max. 140 W/m*K
    Thermal conductivity min. 120 W/m*K
    Thermal conductivity min. 120 W/m*K
  • Soldering
    Brazing 5
    Brazing 5
    Brazing with flux 5
    Brazing with flux 5
    Soft soldering 5
    Soft soldering 5
    Soft soldering with flux 5
    Soft soldering with flux 5
  • Welding
    Friction stir welding 2
    Friction stir welding 2
    Friction welding 2
    Friction welding 2
    Laser 2
    Laser 2
    MIG 2
    MIG 2
    Plasma 2
    Plasma 2
    Resistance spot welding 3
    Resistance spot welding 3
    TIG 2
    TIG 2
  • Aviation
    Aviation No
    Aviation No
  • Chemical specifications
    Be (from) 0
    Be (from) 0
    Be (to) 0
    Be (to) 0
    Co (from) 0
    Co (from) 0
    Co (to) 0
    Co (to) 0
    Cr (from) 0.05
    Cr (from) 0.05
    Cr (to) 0.25
    Cr (to) 0.25
    Cu (to) 0.1
    Cu (to) 0.1
    Fe (to) 0.5
    Fe (to) 0.5
    Mg (from) 3.5
    Mg (from) 3.5
    Mg (to) 4.5
    Mg (to) 4.5
    Mn (from) 0.2
    Mn (from) 0.2
    Mn (to) 0.7
    Mn (to) 0.7
    Other max. 0,05
    Other max. 0,05
    Rest Al
    Rest Al
    Si (to) 0.4
    Si (to) 0.4
    Ti (to) 0.15
    Ti (to) 0.15
    Total max. 0,15 a) b)
    Total max. 0,15 a) b)
    Zn (to) 0.25
    Zn (to) 0.25

    a) Schließt alle aufgeführten Elemente ein, für die keine Grenzwerte angegeben sind. b) Die Summe dieser "Anderen Beimengungen", deren Masseanteil einzeln 0,010 % oder mehr beträgt, wird mit zwei Dezimalstellen vor der Summenbildung ausgedrückt.

  • Corrosion resistance
    Normal atmosphere 2.5
    Normal atmosphere 2.5
    Seawater atmosphere 3.5
    Seawater atmosphere 3.5
  • Cutting
    Laser cutting 4
    Laser cutting 4
    Plasma cutting 2
    Plasma cutting 2
    Sawing 3
    Sawing 3
    Shear cutting 2
    Shear cutting 2
    Waterjet cutting 1
    Waterjet cutting 1
  • Food industry
    suitable according to DIN EN 602 No
    suitable according to DIN EN 602 No
  • Forming
    Bending 2
    Bending 2
    Deep drawing (conditional) 3
    Deep drawing (conditional) 3
    Extruding 4
    Extruding 4
    Press 3
    Press 3
    Upsetting (Conditional) 3
    Upsetting (Conditional) 3
  • Heat treatment - Softannealing
    Heating time max. 2 h
    Heating time max. 2 h
    Heating time min. 1 h
    Heating time min. 1 h
    Annealing temperature max. 420 °C
    Annealing temperature max. 420 °C
    Annealing temperature min. 380 °C
    Annealing temperature min. 380 °C
    Cooling conditions Ofenabkühlung, unkontrolliert
    Mit Temperatur ist Metalltemperatur gemeint.
    Um eine gute Planheit nach dem Glühen zu erreichen ist zu empfehlen unter Belastung zu glühen.
    Cooling conditions Ofenabkühlung, unkontrolliert
    Mit Temperatur ist Metalltemperatur gemeint.
    Um eine gute Planheit nach dem Glühen zu erreichen ist zu empfehlen unter Belastung zu glühen.
  • Material
    Material chemically EN 573-3 Aluminium Al Mg4
    Material chemically EN 573-3 Aluminium Al Mg4
    DIN 3.3545
    DIN 3.3545
    DIN (old designation) AlMg4Mn
    DIN (old designation) AlMg4Mn
    France AFNOR NF-A-G4MC
    France AFNOR NF-A-G4MC
    Italy UNI 9005/4 [P-AlMg4MnCr]
    Italy UNI 9005/4 [P-AlMg4MnCr]
    Spain L-3322 [Al-4Mg]
    Spain L-3322 [Al-4Mg]
  • physical properties
    Coefficient of thermal expansion from 20 to 100°C 23.8 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 100°C 23.8 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 200°C 24.7 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 200°C 24.7 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 300°C 25.8 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 300°C 25.8 K⁻¹10⁻⁶
    Coefficient of thermal expansion from -50 to 20°C 22 K⁻¹10⁻⁶
    Coefficient of thermal expansion from -50 to 20°C 22 K⁻¹10⁻⁶
    Density 2.66 g/cm³
    Density 2.66 g/cm³
    Electrical conductivity max. 19 m/Ω*mm²
    Electrical conductivity max. 19 m/Ω*mm²
    Electrical conductivity min. 17 m/Ω*mm²
    Electrical conductivity min. 17 m/Ω*mm²
    Specific heat 900 J/(kg·K)
    Specific heat 900 J/(kg·K)
    Thermal conductivity max. 140 W/m*K
    Thermal conductivity max. 140 W/m*K
    Thermal conductivity min. 120 W/m*K
    Thermal conductivity min. 120 W/m*K
  • Soldering
    Brazing 5
    Brazing 5
    Brazing with flux 5
    Brazing with flux 5
    Soft soldering 5
    Soft soldering 5
    Soft soldering with flux 5
    Soft soldering with flux 5
  • Welding
    Friction stir welding 2
    Friction stir welding 2
    Friction welding 2
    Friction welding 2
    Laser 2
    Laser 2
    MIG 2
    MIG 2
    Plasma 2
    Plasma 2
    Resistance spot welding 3
    Resistance spot welding 3
    TIG 2
    TIG 2
  • Aviation
    Aviation No
    Aviation No
  • Chemical specifications
    Be (from) 0
    Be (from) 0
    Be (to) 0
    Be (to) 0
    Co (from) 0
    Co (from) 0
    Co (to) 0
    Co (to) 0
    Cr (from) 0.05
    Cr (from) 0.05
    Cr (to) 0.25
    Cr (to) 0.25
    Cu (to) 0.1
    Cu (to) 0.1
    Fe (to) 0.5
    Fe (to) 0.5
    Mg (from) 3.5
    Mg (from) 3.5
    Mg (to) 4.5
    Mg (to) 4.5
    Mn (from) 0.2
    Mn (from) 0.2
    Mn (to) 0.7
    Mn (to) 0.7
    Other max. 0,05
    Other max. 0,05
    Rest Al
    Rest Al
    Si (to) 0.4
    Si (to) 0.4
    Ti (to) 0.15
    Ti (to) 0.15
    Total max. 0,15 a) b)
    Total max. 0,15 a) b)
    Zn (to) 0.25
    Zn (to) 0.25

    a) Schließt alle aufgeführten Elemente ein, für die keine Grenzwerte angegeben sind. b) Die Summe dieser "Anderen Beimengungen", deren Masseanteil einzeln 0,010 % oder mehr beträgt, wird mit zwei Dezimalstellen vor der Summenbildung ausgedrückt.

  • Corrosion resistance
    Normal atmosphere 2.5
    Normal atmosphere 2.5
    Seawater atmosphere 3.5
    Seawater atmosphere 3.5
  • Cutting
    Laser cutting 4
    Laser cutting 4
    Plasma cutting 2
    Plasma cutting 2
    Sawing 3
    Sawing 3
    Shear cutting 2
    Shear cutting 2
    Waterjet cutting 1
    Waterjet cutting 1
  • Food industry
    suitable according to DIN EN 602 No
    suitable according to DIN EN 602 No
  • Forming
    Bending 2
    Bending 2
    Deep drawing (conditional) 3
    Deep drawing (conditional) 3
    Extruding 4
    Extruding 4
    Press 3
    Press 3
    Upsetting (Conditional) 3
    Upsetting (Conditional) 3
  • Heat treatment - Softannealing
    Heating time max. 2 h
    Heating time max. 2 h
    Heating time min. 1 h
    Heating time min. 1 h
    Annealing temperature max. 420 °C
    Annealing temperature max. 420 °C
    Annealing temperature min. 380 °C
    Annealing temperature min. 380 °C
    Cooling conditions Ofenabkühlung, unkontrolliert
    Mit Temperatur ist Metalltemperatur gemeint.
    Um eine gute Planheit nach dem Glühen zu erreichen ist zu empfehlen unter Belastung zu glühen.
    Cooling conditions Ofenabkühlung, unkontrolliert
    Mit Temperatur ist Metalltemperatur gemeint.
    Um eine gute Planheit nach dem Glühen zu erreichen ist zu empfehlen unter Belastung zu glühen.
  • Material
    Material chemically EN 573-3 Aluminium Al Mg4
    Material chemically EN 573-3 Aluminium Al Mg4
    DIN 3.3545
    DIN 3.3545
    DIN (old designation) AlMg4Mn
    DIN (old designation) AlMg4Mn
    France AFNOR NF-A-G4MC
    France AFNOR NF-A-G4MC
    Italy UNI 9005/4 [P-AlMg4MnCr]
    Italy UNI 9005/4 [P-AlMg4MnCr]
    Spain L-3322 [Al-4Mg]
    Spain L-3322 [Al-4Mg]
  • physical properties
    Coefficient of thermal expansion from 20 to 100°C 23.8 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 100°C 23.8 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 200°C 24.7 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 200°C 24.7 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 300°C 25.8 K⁻¹10⁻⁶
    Coefficient of thermal expansion from 20 to 300°C 25.8 K⁻¹10⁻⁶
    Coefficient of thermal expansion from -50 to 20°C 22 K⁻¹10⁻⁶
    Coefficient of thermal expansion from -50 to 20°C 22 K⁻¹10⁻⁶
    Density 2.66 g/cm³
    Density 2.66 g/cm³
    Electrical conductivity max. 19 m/Ω*mm²
    Electrical conductivity max. 19 m/Ω*mm²
    Electrical conductivity min. 17 m/Ω*mm²
    Electrical conductivity min. 17 m/Ω*mm²
    Specific heat 900 J/(kg·K)
    Specific heat 900 J/(kg·K)
    Thermal conductivity max. 140 W/m*K
    Thermal conductivity max. 140 W/m*K
    Thermal conductivity min. 120 W/m*K
    Thermal conductivity min. 120 W/m*K
  • Soldering
    Brazing 5
    Brazing 5
    Brazing with flux 5
    Brazing with flux 5
    Soft soldering 5
    Soft soldering 5
    Soft soldering with flux 5
    Soft soldering with flux 5
  • Welding
    Friction stir welding 2
    Friction stir welding 2
    Friction welding 2
    Friction welding 2
    Laser 2
    Laser 2
    MIG 2
    MIG 2
    Plasma 2
    Plasma 2
    Resistance spot welding 3
    Resistance spot welding 3
    TIG 2
    TIG 2

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

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