High thermal conductivity and high strength magnesium alloy for high pressure die casting ultrathin-walled components

Jian Rong; Wenlong Xiao; Xinqing Zhao; Chaoli Ma; Haimiao Liao; Donglei He; Ming Chen; Meng Huang; Chen Huang

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High thermal conductivity and high strength magnesium alloy for high pressure die casting ultrathin-walled components

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With the rapid development of 3C industries,the demand for high-thermal-conductivity magnesium alloys with high mechanical performance is increasing quickly.However,the thermal conductivities of most common Mg foundry alloys(such as Mg-9wt%-1wt%Zn)are still relatively low.In this study,we developed a high-thermal-conductivity Mg-4Al-4Zn-4RE-1Ca(wt%,AZEX4441)alloy with good mechanical properties for ultrathin-walled cellphone components via high-pressure die casting(HPDC).The HPDC AZEX4441 alloy exhibited a fine homogeneous microstructure(average grain size of 2.8μm)with granular Al_(11)RE_(3),fibrous Al_(2)REZn_(2),and networked Ca_(6)Mg_(2)Zn_(3) phases distributed at the grain boundaries.The room-temperature thermal conductivity of the HPDC AZEX4441 alloy was 94.4 W·m^(-1)·K^(-1),which was much higher than 53.7 W·m^(-1)·K^(-1) of the HPDC AZ91D alloy.Al and Zn in the AZEX4441 alloy were largely consumed by the formation of Al_(11)RE_(3),Al_(2)REZn_(2),and Ca_(2)Mg_(6)Zn_(3) phases because of the addition of RE and Ca.Therefore,the lattice distortion induced by solute atoms of the AZEX4441 alloy(0.171%)was much lower than that of the AZ91D alloy(0.441%),which was responsible for the high thermal conductivity of the AZEX4441 alloy.The AZEX4441 alloy exhibited a high yield strength of~185 MPa,an ultimate tensile strength of~233 MPa,and an elongation of~4.2%.This result indicated that the tensile properties were comparable with those of the AZ91D alloy.Therefore,this study contributed to the development of high-performance Mg alloys with a combination of high thermal conductivity,high strength,and good castability.

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《矿物冶金与材料学报：英文版》 |2022年第1期|88-96|共9页
作者
Jian Rong; Wenlong Xiao; Xinqing Zhao; Chaoli Ma; Haimiao Liao; Donglei He; Ming Chen; Meng Huang; Chen Huang;
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作者单位

Key Laboratory of Aerospace Advanced Materials and Performance of Ministry of Education;

School of Materials Science and Engineering;

Beihang University;

Beijing 100191;

China;

Dongguan Qingniao Metal Material Co.;

Ltd.;

Dongguan 523000;

China;

Structural Technology Department;

Hardware Technology Center;

OPPO Guangdong Mobile Communications Co.;

Ltd.;

Dongguan 523000;

China;

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原文格式 PDF
正文语种 chi
中图分类金属学与热处理;
关键词
magnesium alloys; microstructure; thermal conductivity; mechanical properties; high-pressure die casting;

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High thermal conductivity and high strength magnesium alloy for high pressure die casting ultrathin-walled components

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