期刊
VACUUM
卷 125, 期 -, 页码 180-184出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.vacuum.2015.12.024
关键词
CrAlN; CrAlSiN; Hardness; Thermal stability; Oxidation resistance
资金
- National Nature Science Foundation of China [51371201]
- Teacher research foundation [2013JSB005]
- YuYing plan
- State Key Laboratory of Powder Metallurgy of Central South University of China
Incorporation of a fourth constituent into CrAlN coating to optimize its properties attracts great attention. Here, the effect of Si on the structure and properties of CrAlN coating is investigated. The solid solution of Si into CrAlN coatings promotes the w-AlN growth, and thus results in a structural transition from Cr0.48Al0.52N with single phase cubic structure to Cr0.42Al0.49Si0.09N and Cr0.37Al0.54Si0.09N with mixed cubic-wurtzite structure. An increase in hardness from similar to 25.6 GPa for Cr0.48Al0.52N-similar to 34.4 GPa for Cr0.42Al0.49Si0.09N and similar to 32.7 GPa for Cr0.37Al0.54Si0.09N is obtained due to the solution hardening and grain refinement. Annealing of Cr0.48Al0.52N leads to c-Cr formation via h-Cr2N under N-2 releases as well as w-AlN precipitation. Alloying with Si retards the w-AlN precipitation and N-loss, where the final precipitation phases after annealing of the Si-containing coatings are w-AlN, c-Cr3Si and c-Cr, respectively. Furthermore, the oxidation resistance of CrAlN coating is also improved by Si-addition. (C) 2016 Elsevier Ltd. All rights reserved.
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