热处理温度对FeCoNiCr0.6Al0.4高熵合金组织和力学性能的影响

IF 2 4区材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY

Journal of Materials Engineering and Performance Pub Date : 2025-03-13 DOI:10.1007/s11665-025-10915-1

Hu Chen, Chenglei Wang, Xiaodu Li, Li Pan, Yatao Zhu, Zhujiang Tan, Mei Huang, Jingya Zhang, Daxiang Li, Jiayan Huang

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引用次数: 0

摘要

本研究采用真空电弧熔炼法制备了FeCoNiCr0.6Al0.4高熵合金，并进行了各种时效热处理。系统研究了不同时效温度对高熵合金相组织、显微组织、力学性能和磨损性能的影响。结果表明：随着时效温度的升高，高熵合金的相结构由简单的FCC相转变为FCC + BCC相；随着时效温度的升高，高熵合金的拉伸性能先改善后恶化。当时效温度为700℃时，高熵合金的力学性能最佳，抗拉强度约为1157 MPa，断裂伸长率约为37%。FeCoNiCr0.6Al0.4高熵合金具有良好的耐磨性，在3N载荷下，其磨损体积为0.0112 mm3。磨损机制以磨粒磨损为主，并伴有氧化和分层磨损。

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Effect of Heat Treatment Temperature on the Microstructure and Mechanical Properties of FeCoNiCr0.6Al0.4 High-Entropy Alloy

In this study, the FeCoNiCr0.6Al0.4 high-entropy alloy was prepared using the vacuum arc melting method, and various aging heat treatments were applied. The effects of different aging temperatures on the phase structure, microstructure, mechanical properties, and wear properties of high-entropy alloys were systematically investigated. The results show that the phase structure of the high-entropy alloy transforms from a simple FCC phase to an FCC + BCC phase with increasing aging temperature. The tensile properties of high-entropy alloys initially improve and then deteriorate as the aging temperature increases. At an aging temperature of 700 °C, the high-entropy alloy exhibits optimal mechanical properties, with a tensile strength of approximately 1157 MPa and an elongation at break of about 37%. The FeCoNiCr0.6Al0.4 high-entropy alloy exhibits high wear resistance, with a wear volume of 0.0112 mm³ under a 3N load. The wear mechanism is primarily abrasive wear, accompanied by oxidation and stratified wear.

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来源期刊

Journal of Materials Engineering and Performance 工程技术-材料科学：综合

CiteScore

3.90

自引率

13.00%

发文量

1120

审稿时长

4.9 months

期刊介绍： ASM International''s Journal of Materials Engineering and Performance focuses on solving day-to-day engineering challenges, particularly those involving components for larger systems. The journal presents a clear understanding of relationships between materials selection, processing, applications and performance. The Journal of Materials Engineering covers all aspects of materials selection, design, processing, characterization and evaluation, including how to improve materials properties through processes and process control of casting, forming, heat treating, surface modification and coating, and fabrication. Testing and characterization (including mechanical and physical tests, NDE, metallography, failure analysis, corrosion resistance, chemical analysis, surface characterization, and microanalysis of surfaces, features and fractures), and industrial performance measurement are also covered