Enhancing the surface properties of Ti-6Al-4V with high entropy alloy coating prepared by electron beam cladding

IF 2.5 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Yulong Li, Bin Tang, Yue Li, Haoyue Wu, Yunlong Pan, Xuewen Li, Hua Ouyang, Wenqin Wang, Min Lei
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Abstract

A high entropy alloy (HEA) coating was applied on Ti-6Al-4 V by electron beam cladding Al7(CoFeNi)86Ti7 HEA powder. The optimal electron beam cladding parameters, determined through orthogonal experimental analysis, were: 64 kV accelerating voltage, 12 mA welding beam current, and 3 s scanning time. Microstructure, phase composition, nano-hardness and wear resistance of the coating prepared using optimal parameters were investigated. The primary phases in the top, middle, and bottom regions of the coating were identified as body-centered cubic (BCC) solid solution with Ti-rich compounds (NiTi, Ti2Ni, and Ti2Co), BCC + Ti0.85Al0.15, and Ti0.85Al0.15, respectively. The coating had an average grain size of 3.9 μm, and the dislocation density of the BCC phase was 1.51 × 1014/m². Due to the presence of compounds, fine grains, and high dislocation density, the coating achieved an average nano-hardness of 8.39 ± 0.29 GPa, approximately 1.8 times higher than that of Ti-6Al-4 V. Additionally, the wear rate of the cladded coating was 22.28 ± 4.56 × 10− 6 mm3/(N·m), representing a 65.5% reduction compared to Ti-6Al-4 V.

Abstract Image

用电子束包覆制备的高熵合金涂层提高 Ti-6Al-4V 的表面性能
通过电子束包覆 Al7(CoFeNi)86Ti7 HEA 粉末,在 Ti-6Al-4 V 上形成了高熵合金 (HEA) 涂层。通过正交实验分析确定的最佳电子束熔覆参数为加速电压为 64 kV,焊接束电流为 12 mA,扫描时间为 3 s。研究了使用最佳参数制备的涂层的微观结构、相组成、纳米硬度和耐磨性。涂层顶部、中部和底部区域的主相分别为富含钛化合物(NiTi、Ti2Ni 和 Ti2Co)的体心立方(BCC)固溶体、BCC + Ti0.85Al0.15 和 Ti0.85Al0.15。涂层的平均晶粒大小为 3.9 μm,BCC 相的位错密度为 1.51 × 1014/m²。由于存在化合物、细晶粒和高位错密度,涂层的平均纳米硬度达到了 8.39 ± 0.29 GPa,比 Ti-6Al-4 V 高出约 1.8 倍。此外,涂层的磨损率为 22.28 ± 4.56 × 10- 6 mm3/(N-m),比 Ti-6Al-4 V 降低了 65.5%。
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来源期刊
Applied Physics A
Applied Physics A 工程技术-材料科学:综合
CiteScore
4.80
自引率
7.40%
发文量
964
审稿时长
38 days
期刊介绍: Applied Physics A publishes experimental and theoretical investigations in applied physics as regular articles, rapid communications, and invited papers. The distinguished 30-member Board of Editors reflects the interdisciplinary approach of the journal and ensures the highest quality of peer review.
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