期刊
METALS AND MATERIALS INTERNATIONAL
卷 27, 期 6, 页码 1839-1847出版社
KOREAN INST METALS MATERIALS
DOI: 10.1007/s12540-019-00560-4
关键词
Mg nanocomposite; SiC; Microstructure; Tensile creep
资金
- TUBITAK Project Unit [116M534]
The effects of nanofiber SiC addition on AZ91-1Sr alloy were investigated, resulting in improved mechanical properties with the best yield strength and hardness increment in the nanocomposite. Increased SiC content also led to enhanced creep resistance in the materials, with the dominant creep mechanism identified as dislocation climb controlled.
Effects of nanofiber SiC (0.5 and 1 vol%) addition on microstructure, mechanical properties and creep behaviour of cold chamber high pressure die casting AZ91-1Sr alloy have been investigated. Experimental results indicate that the AZ91-1Sr alloy contains of alpha-Mg, beta-Mg17Al12 and Al4Sr intermetallic phases. With addition of nanofiber SiC, the Al4C3 and SiC peaks were detected. Also, the mechanical properties of the matrix alloy were improved. The AZ91-1Sr-1%SiC nanocomposite displays the best yield strength and hardness increment. Furthermore, the creep resistance of the matrix alloy was increased with increasing nanofiber SiC and the best creep resistance was obtained in the AZ91-1Sr-1SiC nanocomposite. The values of stress exponents and the activation energies for experimental specimen were found between 3.17-5.54 and 103.5-155.3 kJ/mol., respectively. When considered the results obtained from the values of stress exponents, the activation energies and SEM micrographs, it was thought that the dominant creep mechanism for the matrix alloy and nanocomposites is dislocation climb controlled.
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