151. Effect of chemical compositions on tensile behaviors of high pressure die-casting alloys Al-10Si-yCu-xMn-zFe
- Author
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Baoliang Liu, Peng Zhang, Wenjiang Ding, and Zhenming Li
- Subjects
010302 applied physics ,Materials science ,Mechanical Engineering ,Metallurgy ,Alloy ,chemistry.chemical_element ,02 engineering and technology ,engineering.material ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,01 natural sciences ,Die casting ,chemistry ,Mechanics of Materials ,Aluminium ,Phase (matter) ,0103 physical sciences ,Ultimate tensile strength ,engineering ,General Materials Science ,Deformation (engineering) ,0210 nano-technology ,Ductility ,Necking - Abstract
Effects of chemical compositions on the tensile properties, deformation behavior and fracture mechanism have been studied in a die-casting aluminum alloys Al-10Si-yCu-xMn-zFe. The test specimens were taken from the engine support brackets and tested at 20 °C, 150 °C and 300 °C. Addition of Mn and Cu elements in the Al-10Si alloys can significantly increase the YS and UTS of the alloys. The as-cast Al-10Si-1.5Cu-0.8Mn-0.15Fe alloy exhibits the highest tensile properties (RT: YS of 190 MPa and UTS of 308 MPa, 150 °C: YS of 176 MPa and UTS of 249 MPa, 300 °C: YS of 94 MPa and UTS of 111 MPa). Increasing test temperature reduces the YS and UTS and improves the ductility of the alloys. Chemical compositions (such as Mn, Cu and Fe) do not significantly affect the work-hardening behavior of the alloys. Increasing test temperature significantly decreases the n and k values. Phase particles (both Si and (Fe/Mn)-rich) cracking and debonding determine the fracture mechanism of the alloys. Final failure of the alloys mainly depends on the global instability (HT, necking) and local instability (RT, shearing). more...
- Published
- 2016
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