Physical Energy Table of A380 Aluminum Alloy Ingot

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Physical Energy Table of A380 Aluminum Alloy Ingot

General Information:

  • Form: (Fixed)
  • Color:  (Silver White)
  • Boiling Point: (101.325Kpa): 2327°C
  • Water Solubility:  (Insoluble)
  • Reactivity to Water:  (No reaction in solid state)

Table of Properties:

合金牌号 (Alloy Grade) 熔点范围 (Melting Range) (°C) 密度 (Density) (g/cm³) 固相线及液相线温度 (Solid Line and Liquid Line Temperature) (°C) 电导率 (Conductivity) (% IACS) 热导率 (Heat Conductivity) (w/m.K) 25°C 线膨胀系数 (Linear Expansivity) (α 1/×10⁻⁶ K⁻¹) 20–200°C 抗拉强度 (Tensile Strength) (MPa) 屈服强度 (Yield Strength) (MPa) 延伸率 (Extensibility) (%) 硬度 (Hardness) (HB)
A380 620–650 2.8 516–604 27 109 21.5 180 100 1 80

Notes:

  • % IACS is the percentage of international standard annealed copper standard, is imperial unit, international legal unit is “MS/m”, conversion relation is: % IACS=0.580046MS/m, where 1S=1Ω⁻¹.

For further information and in-depth properties of A380 aluminum alloy, please refer to the detailed descriptions and applications here.

Mechanical Properties:

Tensile Strength: 324 MPa (Ultimate), 159-203 MPa (Yield) Elongation at Break: 1-3.5% Brinell Hardness: 80-105 HB Fatigue Strength: 96 MPa (at 5×10^8 cycles)​ ​.

Applications:

Automotive Components: A380 is extensively used in making engine blocks, transmission cases, and various other structural parts due to its strength, light weight, and thermal conductivity. Electronics and Electrical Applications: The alloy’s excellent thermal conductivity makes it ideal for heat sinks, LED lighting fixtures, and other electronic housings. Construction: Used in window and door frames, and other structural components, due to its strength and corrosion resistance​

Advantages:

Castability: A380 alloy has high fluidity, which allows for the production of complex and intricate shapes with minimal defects. Machinability: It can be easily machined using conventional processes, offering good surface finishes. Thermal and Electrical Conductivity: High thermal conductivity makes it suitable for heat dissipation applications, while its electrical conductivity is beneficial for electrical components. Corrosion Resistance: The presence of silicon and other elements enhances its resistance to corrosion in various environments​