Effect of Fe and Thermal Exposure on Mechanical Properties of Al-Si-Cu-Ni-Mg-Fe Alloy

The effects of Fe, Cr and thermal exposure on the microstructure and mechanical properties of Al-Si alloy were investigated in this work. The results indicated that the main phases of the Al-Si-Cu-Ni-Mg-(0.6-0.9%) Fe (wt. %) alloy were alpha-Al, Si, Al5Cu2Mg8Si6, Al3CuNi, Al7Cu4Ni, Al2Cu, and AlFeSi at room temperature. The size of the AlSiFe phase increased with increasing the weight fraction of Fe. The shape of Fe-rich phase changed from rod-like to star-like, followed by long needle-like with Fe varying from 0.6% to 0.9%. The mechanical properties of the studied alloys at elevated temperatures increased with Fe. The ultimate tensile strength of the three alloys at 350 degrees C was 111.2 MPa, 124 MPa, and 128.7 MPa, respectively. In addition, the ductility and strength of the studied alloys at room temperature decreased with increasing the Fe, due to the large size of the hard and brittle Fe-rich phase strictly cleaved the aluminum matrix. After thermal exposure, the properties of the alloy at room temperature and elevated temperature decreased obviously at the beginning of 0.5 similar to 8 h, and then tend to be stabilized during thermal exposure at 350 degrees C for approximately 32 similar to 64 h. Fe-rich was a thermal stable phase at 350 degrees C.

Automated summary

The effects of Fe, Cr and thermal exposure on the microstructure and mechanical properties of Al-Si alloy were studied. The size and shape of the Fe-rich phase changed with the increase of Fe content. The mechanical properties of the alloys improved with the addition of Fe at elevated temperatures. However, the ductility and strength decreased at room temperature due to the presence of large and brittle Fe-rich phase.