[Poster Presentation]Preparation and properties study of AlWMoTiCr high-entropy alloys

Preparation and properties study of AlWMoTiCr high-entropy alloys
ID:123 Submission ID:108 View Protection:ATTENDEE Updated Time:2024-10-15 01:03:23 Hits:221 Poster Presentation

Start Time:2024-10-19 08:20 (Asia/Shanghai)

Duration:20min

Session:[P0] Poster » [P0] Poster

No files

Abstract
   The AlWMoTiCr refractory high-entropy alloy system shows great potential for application in next-generation aerospace engines. However, the significant melting point differences among the various elements (broad melting range) often lead to compositional segregation during traditional fabrication methods, which limits the research and application of this alloy system. This study innovatively proposes a solution to this fabrication challenge by utilizing a high-power magnetic sputtering discharge method within a cylindric sputter cathode to firstly ionize and mix the elements, followed by deposition. The results indicate that the AlWMoTiCr high-entropy alloy produced by this method can effectively avoid compositional segregation and the precipitation of new phases. The fabricated AlWMoTiCr high-entropy alloy consists of equiaxed nanocrystals and an amorphous phase. This alloy system exhibits excellent mechanical properties, with a hardness of up to 4000 HV, and demonstrates outstanding high-temperature stability, maintaining the size stability of the nanocrystals at 1000 °C, indicating a broad range of application prospects.
Keywords
high-entropy alloy, high-power magnetic sputtering discharge method, mechanical properties, high-temperature stability
Speaker
Bingjing Huang
学生 Peking University Shenzhen Graduate School, China

Submission Author
秉经 黄 北京大学深圳研究生院
忠振 吴 北京大学深圳研究生院
Comment submit
Verification code Change another
All comments
Mr. Duan Jindi,       Tel. 13971036507  

Mr. Jiang Chao,        Tel. 18971299299

E-mail:icse2024@126.com
Dr. Liu Mingming,  Tel. 19862516876

E-mail:mmliu@sdut.edu.cn

Dr. Zhu Jian,         Tel. 15810878528 E-mail: zhujian@sdut.edu.cn
Dr. Zhang Xiuli,     Tel. 15064351998

E-mail: zhangxiulli@163.com

Prof. Guo Qianjian,   Tel. 13969397001

Registration Submission