C. H. Cáceres scite author profile

The microstructure and tensile behavior of two Al-7 pct Si-Mg casting alloys, with magnesium contents of 0.4 and 0.7 pct, have been studied. Different microstructures were produced by varying the solidification rate and by modification with strontium. An extraction technique was used to determine the maximum size of the eutectic silicon flakes and particles. The eutectic Si particles in the unmodified alloys and, to a lesser extent, in the Sr-modified alloys are larger in the alloys with higher Mg content. Large Fe-rich -phase (Al 9 FeMg 3 Si 5 ) particles are formed in the 0.7 pct Mg alloys together with some smaller ␤-phase (Al 5 FeSi) plates; in contrast, only ␤-phase plates are observed in the 0.4 pct Mg alloys. The yield stress increases with the Mg content, although, at 0.7 pct Mg, it is less than expected, possibly because some of the Mg is lost to -phase intermetallics. The tensile ductility is less in the higher Mg alloys, especially in the Sr-modified alloys, compared with the lower Mg alloys. The loss of ductility of the unmodified alloy seems to be caused by the larger Si particles, while the presence of large -phase intermetallic particles accounts for the loss in ductility of the Sr-modified alloy.

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Damage by eutectic particle cracking in aluminum casting alloys A356/357

Wang

Cáceres

Griffiths

2003

Metall Mater Trans A

181

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The strain dependence of particle cracking in aluminum alloys A356/357 in the T6 temper has been studied in a range of microstructures produced by varying solidification rate and Mg content, and by chemical (Sr) modification of the eutectic silicon. The damage accumulates linearly with the applied strain for all microstructures, but the rate depends on the secondary dendrite arm spacing and modification state. Large and elongated eutectic silicon particles in the unmodified alloys and large -phase (Al 9 FeMg 3 Si 5 ) particles in alloy A357 show the greatest tendency to cracking. In alloy A356, cracking of eutectic silicon particles dominates the accumulation of damage while cracking of Fe-rich particles is relatively unimportant. However, in alloy A357, especially with Sr modification, cracking of the large -phase intermetallics accounts for the majority of damage at low and intermediate strains but becomes comparable with silicon particle cracking at large strains. Fracture occurs when the volume fraction of cracked particles (eutectic silicon and Fe-rich intermetallics combined) approximates 45 pct of the total particle volume fraction or when the number fraction of cracked particles is about 20 pct. The results are discussed in terms of Weibull statistics and existing models for dispersion hardening.

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Strength-Ductility Behaviour of Al-Si-Cu-Mg Casting Alloys in T6 Temper

Cáceres

Svensson

Taylor

2003

International Journal of Cast Metals Research

154

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C. H. Cáceres

Damage by the cracking of silicon particles in an Al-7Si-0.4Mg casting alloy

The deformation and fracture behaviour of an AlSiMg casting alloy

The effect of Mg on the microstructure and mechanical behavior of Al-Si-Mg casting alloys

Damage by eutectic particle cracking in aluminum casting alloys A356/357

Strength-Ductility Behaviour of Al-Si-Cu-Mg Casting Alloys in T6 Temper

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