Alloys Handbook

Reference Information

Casting methods, influence of alloying elements, and phase diagrams

Aluminum — Silicon (Al-Si) Phase Diagram

Temperature (°C) Silicon Content (wt% Si) 0 577 660 1414 0 12.6 100 (Si) L (Liquid) L + α(Al) L + Si α(Al) + Si (Eutectic) Eutectic (577°C) Al (660°C) Si (1414°C)

1 Eutectic Point

An alloy containing 12.6% Si melts at a minimum temperature of 577°C. This allows for alloys with excellent fluidity.

2 Limited Solubility

The maximum solubility of silicon in solid aluminum is 1.65% at 577°C and drops almost to zero at room temperature.

3 Microstructure

Upon cooling in hypereutectic alloys, hard silicon crystals precipitate first, followed by a fine mechanical mixture of aluminum and silicon at the eutectic temperature.

Casting Methods

Sand Casting

Forming in a mixture of sand and binder.

Advantages
  • Low tooling cost
  • Any dimensions
  • Low cost
Disadvantages
  • Low accuracy and surface finish
  • Slow cooling (lower Rm)

Gravity Die Casting (Permanent Mold)

Pouring metal into a metal mold under gravity.

Advantages
  • Fine grain (high Rm, A)
  • Good accuracy
  • High productivity
Disadvantages
  • Mold cost
  • Complexity limitations

High Pressure Die Casting (HPDC)

Injecting melt into a steel die under high pressure.

Advantages
  • High productivity
  • Thin walls (up to 1.5mm)
  • High accuracy
Disadvantages
  • Expensive equipment
  • Gas porosity (unsuitable for T6)

Alloying Elements

Si 5.0 - 23.0%
(Silicon)

Main alloying element. Improves casting properties (fluidity), increases hardness, reduces density and CTE. Forms eutectic at 12.6%.

Cu 1.0 - 5.0%
(Copper)

Increases strength (especially after heat treatment) and hardness, improves machinability. Reduces corrosion resistance.

Mg 0.2 - 10.0%
(Magnesium)

Increases strength, corrosion resistance, and weldability. In combination with Si (Mg2Si), makes the alloy heat-treatable.

Mn 0.1 - 0.8%
(Manganese)

Neutralizes the harmful effects of iron (converts needle-like β-AlFeSi crystals into less harmful "hieroglyphs"). Increases high-temperature strength.

Fe up to 1.3%
(Iron)

Main impurity. Reduces ductility (A) and impact toughness due to brittle phase formation. In die casting, prevents sticking to the mold.

Zn up to 10%
(Zinc)

Increases strength (in Al-Zn-Mg system). In Al-Si alloys, it is usually an impurity.

Ti 0.05 - 0.25%
(Titanium)

Refines grain (Type 1 modifier), which improves mechanical properties and casting pressure tightness.

Sr 0.01 - 0.05%
(Strontium)

Modifies the Al-Si eutectic (converts Si plates into fibers), significantly increasing ductility.

Na 0.005 - 0.01%
(Sodium)

Similarly modifies the eutectic. Quickly burns out from the melt.