In this work,a series of multi-microalloying Mg alloys with a high degradation rate and high strength was prepared by add-ing AlCoCrFeNi HEA particles to the Mg melt followed by hot extrusion.The microstructure evolution and mechanical properties of the alloys were studied,meanwhile,the corrosion properties were evaluated by immersion weight loss and electrochemical tests.Results indicated that HEA particles in the Mg melt were decomposed and formed the Ni-rich phase,which was distributed uniformly in the Mg matrix.Compared with the pure Mg matrix,the Mg-3 HEA alloy exhibited excel-lent mechanical properties of the ultimate tensile strength～237 MPa and tensile yield strength～181 MPa,an increased rate of～49.1 and～96.7％,respectively,without sacrificing the elongation.And the ultimate compressive strength(UCS)and compressive yield strength increased by～31.5 and～43％to 392±3 and 103±2 MPa,respectively.Based on theoreti-cal analysis,the high YS of the alloys was mainly attributed to fine-grain strengthening and second phase strengthening.Besides,based on the study of corrosion behavior,it was found that with the increase in HEA particle content,the degradation rate of the composites increased because of the promotion of micro-galvanic corrosion,and the Mg-3 HEA alloy showed a maximum degradation rate of～25.2 mg cm-2 h-1.

Xiong Zhou;Qichi Le;Chenglu Hu;Ruizhen Guo;Tong Wang;Chunming Liu;Dandan Li;Xiaoqiang Li

The Key Laboratory of Electromagnetic Processing of Materials,Ministry of Education,Northeastern University,Shenyang 110819,China;Key Laboratory for Anisotropy and Texture of Materials(MoE),School of Materials Science and Engineering,Northeastern University,Shenyang 110819,China

金属学报（英文版）

[1]Xiong Zhou;Qichi Le;Chenglu Hu;Ruizhen Guo;Tong Wang;Chunming Liu;Dandan Li;Xiaoqiang Li-.Mechanical Properties and Corrosion Behavior of Multi-Microalloying Mg Alloys Prepared by Adding AlCoCrFeNi Alloy)[J].金属学报（英文版）,2022(08):1301-1316

Microalloying

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