Effects of P addition on the microstructure and mechanical properties of Mg-5%Sn-1.25%Si alloy

来源 :International Journal of Minerals Metallurgy and Materials | 被引量 : 0次 | 上传用户:wangwei0101
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The effects of Al-P addition on the microstructure and mechanical properties of as-cast Mg–5%Sn–1.25%Si magnesium alloy were investigated. The results show that the phases of the as-cast alloy are composed of α-Mg, Mg2 Sn, Mg2 Si, little P, and AlP. The Chinese character shape Mg2 Si phase changes into a granular morphology by P addition because AlP can act as a heterogeneous nucleation core for the Mg2 Si phase. When 0.225wt% of Al–3.5%P alloy is added, the mechanical properties of the Mg–5%Sn–1.25%Si alloy are greatly improved, and the tensile strength increases from 156 to 191 MPa, an increase of 22.4% compared to the alloy without P addition. When the amount of Al–3.5%P reaches 0.300wt%, a segregation phenomenon occurs in the granular Mg2 Si phase, and the tensile strength and hardness decrease though the elongation increases. The effects of Al-P addition on the microstructure and mechanical properties of as-cast Mg-5% Sn-1.25% Si magnesium alloy were investigated. The results show that the phases of the as-cast alloy are composed of α-Mg, Mg2 Sn, Mg2 Si, little P, and AlP. The Chinese character shape Mg2 Si phase changes into a granular morphology by P addition because AlP can act as a heterogeneous nucleation core for the Mg2 Si phase. When 0.225 wt% of Al-3.5 % P alloy is added, the mechanical properties of the Mg-5% Sn-1.25% Si alloy are greatly improved, and the tensile strength increases from 156 to 191 MPa, an increase of 22.4% compared to the alloy without P addition. When the amount of Al-3.5% P reaches 0.300% by weight, a segregation phenomenon occurs in the granular Mg2Si phase, and the tensile strength and hardness decrease though the elongation increases.
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