Aluminum Machining Options

Aluminum Alloys for CNC Machining & Custom Parts
GC Indus is your trusted partner for high-quality aluminum alloys and advanced machining services. We specialize in delivering precision solutions for a wide range of industrial applications, including:

  • CNC Machining: High-accuracy machining for complex aluminum parts.
  • Casting: Durable and reliable aluminum casting solutions.
  • Sheet Metal: Custom sheet metal fabrication for versatile designs.
  • Cold Forging: Strong and lightweight aluminum components.
  • Rapid Mold: Fast and efficient mold manufacturing for prototyping and production.

Our aluminum alloys are engineered for performance, durability, and efficiency, making them ideal for demanding industrial environments. Whether you need custom machining or standard solutions, GC Indus ensures top-notch quality and innovation.

Explore our aluminum alloys and machining options today to elevate your projects with precision and reliability.

Aluminum Alloy Equivalents & Material Standards:

ISOENDIN (Germany)ANSI/AA (USA)BS (Great Britain)AFNOR (France)UNE (Spain)UNSJIS (Japan)CSA (Canada)SIS (Sweden)
Al-Zn6MgCuEN AW70753.4365AA70752L95A-Z5GUL-3710A97075A7075ZG62 
AlZn5Mg3CuEN AW-70223.4345AA7022 A-Z4GU A97022   
Al-Zn4,5Mg1EN AW-70203.4335AA7020H17A-Z5GL-3741A97020  4425
Al-Si1MgEN AW-60823.2315AA6082H30A-SGM0,7L-3453A96082  4212
Al-Mg1SiCuEN AW-60613.3211AA6061H20A-GSUCL-3420A96061A6061GS11N 
Al-MgSiEN AW-60603.3206AA6060H9AGSL-3442A96060  4140
AlMgSiPbEN AW-60123.0615AA6012 A-SGPbL-3452A96012   
(Al-SiMg)EN AW-6005A3.321AA6005A A-SG0,5L-3454A96005A6005  
Al-Mg3EN AW-57543.3535AA5754 A-G3ML-3390A95754  4130
Al-Mg3MnEN AW-54543.3537AA5454 A-G2,5MCL-3391A95454  4130
Al-Mg2EN AW-52513.3525AA5251N4A-G2ML-3361A95251   
AlMg4EN AW-50863.3545AA5086 A-G4MCL-3382A95086 GM40 
Al-Mg4,5MnEN AW-50833.3547AA5083N8A-G4,5MCL-3321A95083A5083GM4I(D54S)4140
Al-Mg4EN AW-50823.3345AA5082 A-G4,5 A95082A5082  
Al-Mg5EN AW-5056A3.3355AA5056AN6/2L58A-G5L-3320A95056A5056GM50R(56S)4146
Al-Mg2,5EN AW-50523.3523AA5052L80/L81A-G2,5CL-3360A95052A5052GR20(57S)4120
Al-Mg1,5EN AW-5050B3.3316AA5050B3L 44A-G1,5L-3380A95050 A57S 
AlMg2Mn0,8EN AW-50493.3527AA5049 A-G2,5MC A95049A5049  
Al-Mg1EN AW-5005A3.3315AA5005AN41A-G0,6L-3350A95005A5005B57S4106
AlMn0,5Mg0,5EN AW-31053.0505AA3105N31  A93105A3105  
Al-Mn1EN AW-31033.0515AA3103N3 L-3811A93103A3103 4067
AlMn1Mg0,5EN AW-30053.0525AA3005 A-MG0,5 A93005A3005  
AlMn1Mg1EN AW-30043.0526AA3004 A-M1GL-3820A93004A3004D35GA/6511
Al-Mn1CuEN AW-30033.0517AA3003 A-M1L-3810A93003A3003MC10 
Al-Cu2MgEN AW-21173.1305AA2117L86A-U2GL-3180A92117A2117CG30 
Al-Cu4Mg1EN AW-20243.1355AA2024L97/L98A-U4G1L-3140A92024A2024CGA2(24S)5
Al-Cu4MgEN AW-2017A3.1325AA2017AH14A-U4GL-3120A92017A2017CM41(17S)GA631
Al-Cu4SiMgEN AW-20143.1255AA2014H15A-U4SGL-3130A92014A2014CS4IN 
Al-Cu6BiPbEN AW-20113.1655AA2011FC 1A-U5PbBiL-3192A92011A2011CB60(28S)4338
AlCu4PbMgMnEN AW-20073.1645AA2007  L-3121A92007A2007 4355
Al99EN AW-12003.0205AA12001CA4L-3001A91200A1200990(2S)4010
 EN AW–11993.0385AA1199   A91199A1199  
Al99,8EN AW-1080A3.0285AA1080A1AA8L-3081A91080A108099804004
Al99,7EN AW-1070A3.0275AA1070A2L 48A7L-3071A91070A107099704005
Al99,5EN AW-1050A3.0255AA1050A1BA5.L-3051A91050A1050995(2S)4007
 

Aluminum Material Properties & Performance Data

AlloyPhysical PropertiesChemical Composition (wt%)
EN AW-7075Density: 2.81 g/cm³
Melting Point: ~477-635°C
Elastic Modulus: 72 GPa
Al: Balance
Zn: 5.1-6.1%
Mg: 2.1-2.9%
Cu: 1.2-2.0%
Cr: 0.18-0.28%
Fe, Si: <0.5% each
EN AW-7022Density: 2.78 g/cm³
Melting Point: ~490-650°C
Thermal Conductivity: ~130 W/m·K
Al: Balance
Zn: 4.0-5.0%
Mg: 2.0-2.5%
Cu: 1.1-1.5%
Mn: 0.1-0.3%
Fe, Si, Ti: <0.2% each
EN AW-7020Density: 2.78 g/cm³
Melting Point: ~477-638°C
Thermal Conductivity: ~130 W/m·K
Al: Balance
Zn: 4.0-5.0%
Mg: 1.0-1.4%
Mn: 0.2-0.7%
Cr, Zr: 0.1% max
Si, Fe: <0.35% each
EN AW-6082Density: 2.70 g/cm³
Melting Point: ~555-650°C
Electrical Conductivity: 30-40% IACS
Al: Balance
Si: 0.7-1.3%
Mg: 0.6-1.2%
Mn: 0.4-1.0%
Cr, Cu, Zn: <0.25% each
Fe: <0.5%
EN AW-6061Density: 2.70 g/cm³
Melting Point: ~582-652°C
Thermal Expansion: 23.6 µm/m·K
Al: Balance
Si: 0.4-0.8%
Mg: 0.8-1.2%
Cu: 0.15-0.4%
Cr: 0.04-0.35%
Fe, Zn, Ti: <0.7% total
EN AW-6060Density: 2.70 g/cm³
Melting Point: ~615-655°C
Thermal Conductivity: ~200 W/m·K
Al: Balance
Si: 0.3-0.6%
Mg: 0.35-0.6%
Fe: 0.1-0.3%
Cu, Zn, Mn: <0.1% each
Cr, Ti: <0.1%
EN AW-6012Density: 2.71 g/cm³
Melting Point: ~555-650°C
Electrical Conductivity: ~30-40% IACS
Al: Balance
Si: 0.6-1.5%
Mg: 0.7-1.2%
Cu: 0.6-1.1%
Pb: 0.3-0.7%
Fe, Zn: <0.7%
EN AW-6005ADensity: 2.70 g/cm³
Melting Point: ~580-660°C
Thermal Conductivity: ~200 W/m·K
Al: Balance
Si: 0.6-0.9%
Mg: 0.4-0.6%
Mn: 0.1-0.5%
Cr, Zn: <0.1% each
Fe: <0.35%
EN AW-5754Density: 2.67 g/cm³
Melting Point: ~600-655°C
Thermal Conductivity: ~130 W/m·K
Al: Balance
Mg: 2.6-3.6%
Mn: 0.3% max
Cr: 0.1% max
Fe, Si: <0.4% each
EN AW-5454Density: 2.69 g/cm³
Melting Point: ~600-655°C
Thermal Conductivity: ~140 W/m·K
Al: Balance
Mg: 2.4-3.0%
Mn: 0.5-1.0%
Fe, Si, Cu: <0.5% each
EN AW-5251Density: 2.69 g/cm³
Melting Point: ~600-650°C
Electrical Conductivity: ~31-38% IACS
Al: Balance
Mg: 1.7-2.4%
Mn: 0.1-0.7%
Fe, Si: <0.5% each
Cr, Zn, Ti: <0.15%
EN AW-5086Density: 2.67 g/cm³
Melting Point: ~590-650°C
Thermal Expansion: 23.8 µm/m·K
Al: Balance
Mg: 3.5-4.5%
Mn: 0.2-0.7%
Cr: 0.05-0.25%
Fe, Si: <0.5% each
EN AW-5083Density: 2.66 g/cm³
Melting Point: ~590-650°C
Electrical Conductivity: ~28-34% IACS
Al: Balance
Mg: 4.0-4.9%
Mn: 0.4-1.0%
Cr: 0.05-0.25%
Fe, Si: <0.5% each
EN AW-5082Density: 2.66 g/cm³
Melting Point: ~600-650°C
Thermal Conductivity: ~120 W/m·K
Al: Balance
Mg: 3.2-4.7%
Mn: 0.2-0.7%
Cr, Zn: <0.25% each
Fe, Si: <0.5%
EN AW-5056ADensity: 2.67 g/cm³
Melting Point: ~590-650°C
Thermal Expansion: 23.7 µm/m·K
Al: Balance
Mg: 4.5-5.6%
Mn: 0.1-0.6%
Cr, Zn: <0.25% each
Fe, Si: <0.5%
EN AW-5052Density: 2.68 g/cm³
Melting Point: ~607-650°C
Thermal Conductivity: ~138 W/m·K
Al: Balance
Mg: 2.2-2.8%
Cr: 0.15-0.35%
Mn, Zn, Si: <0.1% each
Fe: <0.4%
EN AW-5050BDensity: 2.69 g/cm³
Melting Point: ~605-650°C
Electrical Conductivity: ~30-38% IACS
Al: Balance
Mg: 1.3-1.8%
Mn: 0.1-0.4%
Fe, Si: <0.5% each
Cr, Zn, Ti: <0.15%
EN AW-5049Density: 2.70 g/cm³
Melting Point: ~610-650°C
Thermal Conductivity: ~135 W/m·K
Al: Balance
Mg: 1.8-2.8%
Mn: 0.05-0.5%
Cr, Zn: <0.25% each
Fe, Si: <0.5%
EN AW-5005ADensity: 2.70 g/cm³
Melting Point: ~615-650°C
Electrical Conductivity: ~35-40% IACS
Al: Balance
Mg: 0.5-1.1%
Mn: 0.1-0.5%
Fe, Si: <0.5% each
Cr, Zn, Ti: <0.15%
EN AW-3105Density: 2.73 g/cm³
Melting Point: ~650-655°C
Electrical Conductivity: ~41-45% IACS
Al: Balance
Mn: 0.3-0.8%
Mg: 0.2-0.8%
Si, Fe, Zn: <0.7% each
EN AW-3103Density: 2.73 g/cm³
Melting Point: ~650-655°C
Thermal Conductivity: ~160 W/m·K
Al: Balance
Mn: 1.0-1.5%
Si, Fe: <0.7% each
Cu, Zn: <0.2% each
EN AW-3005Density: 2.72 g/cm³
Melting Point: ~655°C
Thermal Expansion: 23.8 µm/m·K
Al: Balance
Mn: 1.0-1.5%
Mg: 0.2-0.6%
Si, Fe, Cu: <0.5% each
EN AW-3004Density: 2.72 g/cm³
Melting Point: ~655°C
Electrical Conductivity: ~38-42% IACS
Al: Balance
Mn: 1.0-1.5%
Mg: 0.8-1.3%
Si, Fe, Cu: <0.3% each
EN AW-3003Density: 2.71 g/cm³
Melting Point: ~655°C
Thermal Conductivity: ~160 W/m·K
Al: Balance
Mn: 1.0-1.5%
Si, Fe, Cu, Zn: <0.2% each
EN AW-2117Density: 2.78 g/cm³
Melting Point: ~500°C
Thermal Expansion: 23.2 µm/m·K
Al: Balance
Cu: 2.2-3.0%
Mn: 0.2-0.5%
Fe, Si, Zn: <0.5% each
EN AW-2024Density: 2.78 g/cm³
Melting Point: ~500°C
Thermal Conductivity: ~120 W/m·K
Al: Balance
Cu: 3.8-4.9%
Mn: 0.3-0.9%
Mg: 1.2-1.8%
Fe, Si, Zn: <0.5% each
EN AW-2017ADensity: 2.78 g/cm³
Melting Point: ~505°C
Electrical Conductivity: ~30-35% IACS
Al: Balance
Cu: 3.5-4.5%
Mn: 0.4-1.0%
Mg: 0.4-0.8%
Fe, Si, Zn: <0.5% each
EN AW-2014Density: 2.79 g/cm³
Melting Point: ~510°C
Thermal Conductivity: ~140 W/m·K
Al: Balance
Cu: 3.9-5.0%
Mn: 0.2-0.8%
Mg: 0.2-0.8%
Si: 0.5-1.2%
EN AW-2011Density: 2.79 g/cm³
Melting Point: ~520°C
Electrical Conductivity: ~35-40% IACS
Al: Balance
Cu: 5.0-6.0%
Bi, Pb: 0.2-0.6% each
Fe, Si, Zn: <0.5% each
EN AW-2007Density: 2.80 g/cm³
Melting Point: ~525°C
Thermal Conductivity: ~130 W/m·K
Al: Balance
Cu: 3.8-4.9%
Mg: 0.8-1.3%
Mn, Zn: <0.2% each
Fe, Si: <0.5% each