期刊
MATERIALS CHARACTERIZATION
卷 183, 期 -, 页码 -出版社
ELSEVIER SCIENCE INC
DOI: 10.1016/j.matchar.2021.111623
关键词
Al-Mg 2 Si alloy; Hot deformation behaviour; Microstructure evolution; Mg 2 Si particles
类别
资金
- National Natural Science Foundation of China [51404169]
- Natural Science Foundation of Tianjin [20JCYBJC00950]
Isothermal compression tests were conducted on the Al-3%Mg2Si alloy in the temperature range of 300-500°C and strain rate range of 0.01-5 s-1, revealing typical dynamic recovery characteristics in the flow stress curves. A modified Arrhenius-type constitutive equation was established to describe the flow behavior. Microstructure evolution was analyzed based on the processing map. High efficiency of power dissipation regions was attributed to softening mechanisms of dynamic recovery and partial dynamic recrystallization, with Mg2Si particles also playing a positive role in the latter. Damage mechanism of unstable domains was identified as fracture and debonding of Mg2Si particles.
To investigate the hot deformation behaviour of Al-3%Mg2Si, isothermal compression tests were carried out in the temperature range of 300-500 degrees C and strain rate range of 0.01-5 s-1. The deformed microstructures were characterized by optical microscope, scanning electron microscope, transmission electron microscope and electron backscatter diffraction. The results show that the flow stress curves reveal a typical dynamic recovery characteristic. A modified Arrhenius-type constitutive equation was built to describe the flow behaviour of Al-3% Mg2Si alloy. Furthermore, based on the processing map of Al-3%Mg2Si alloy established under the strain of 0.8, microstructure evolution was analyzed. The high efficiency of power dissipation regions is mainly due to the softening mechanism of dynamic recovery and partial dynamic recrystallization. Mg2Si particles also play a positive role in dynamic recrystallization. The damage mechanism of unstable domains is the fracture and debonding of Mg2Si particles.
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