期刊
METALS
卷 7, 期 10, 页码 -出版社
MDPI
DOI: 10.3390/met7100425
关键词
aluminium matrix composites; nanoparticles; metallic glasses; ball milling
资金
- Fundamental Research Funds for the Central Universities
- Key Project of Scientific and Technological Innovation of Department of Education of Guangdong Province [2012CX2D0010]
- Natural Science Foundation of Guangdong Province [2015A030312003]
- Major Special Project for Science and Technology of Guangdong Province [2015B090926004]
The initial microstructure and mechanical properties of composite powders have a vital role in determining the microstructure and mechanical properties of the subsequent consolidated bulk composites. In this work, Al-based matrix composite powders with a dense and uniform distribution of metallic glass nanoparticles were obtained by high-energy milling. The results show that high-energy milling is an effective method for varying the microstructure and mechanical properties of the composite powders, thereby offering the ability to control the final microstructure and properties of the bulk composites. It was found that the composite powders show a deformed layer combined with an undeformed core after milling. The reinforcements, metallic glass microparticles, are fractured into dense distributed nanoparticles in the deformed layer, owing to the severe plastic deformation, while in the undeformed core, the metallic glass microparticles are maintained. Therefore, a bimodal structure was obtained, showing a mechanical bimodal structure that has much higher hardness in the outer layer than the center core. The hardness of the composite particles increases significantly with increasing milling time, due to dispersion strengthening and work hardening.
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