Macro-Micro Analysis of Mechanical Properties of Al0.6cocrfeni High-Entropy Alloy Particle-Reinforced Al-Based Composites

Author:

Yuan Zhanwei,Ma Zhe,Zhang Hao,Wang Kai,Yu Yuan,Li Shurong,Zhang Xuemin,Wang Jingyi,Zhang Danli

Publisher

Elsevier BV

Reference57 articles.

1. Deformation and strengthening of SiC reinforced Al-MMCs during in-situ micro-pillar compression;K Basak;Materials Science and Engineering A,2019

2. Significantly improving strength and plasticity of Al-based composites by in-situ formed AlCoCrFeNi core-shell structure[J];Y Z Liu;Journal of Materials Research and Technology,2021

3. Effects of Reinforcement Volume Fraction on Mechanical Properties and Microstructures of 7075Al Matrix Composites Reinforced by FeCoCrNiAl High-Entropy Alloy Particles;C Q Gao;Metals,2022

4. Determination of the matrix in situ from stress of a continuous fibre reinforced metal matrix composite using instrumented indentation[J];J L Bucaille;Materials Science and Engineering A,2004

5. Fabrication of continuous carbon-fibers reinforced aluminum matrix composites and coating evolution during heat treatment[J];W P Mu;Journal of Materials Research and Technology,2022

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