The creep behavior of Mg–9Al–1Si–1SiC composite at elevated temperature

The creep behavior of Mg–9Al–1Si–1SiC composite at elevated temperature

The creep properties of as-cast Mg–9Al–1Si alloy and Mg–9Al–1Si–1SiC composite were compared. The results show that Mg–9Al–1Si–1SiC composite performs a better creep resistance than that of Mg–9Al–1Si alloy at constant temperature and stress (473 K,70 MPa). Besides, the creep behavior of Mg–9Al–1Si–...

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Veröffentlicht in:Journal of magnesium and alloys 2020-09, Vol.8 (3), p.944-951
Hauptverfasser: Zhou, Pengwen, Zhang, Shaoxiong, Li, Ming, Wang, Hongxia, Cheng, Weili, Wang, Lifei, Li, Hang, Liang, Wei, Liu, Yiming
Format: Artikel
Sprache:eng
Schlagworte:
Creep activation energy Q
Mg–9Al–1Si–1SiC composite
Microstructure
Stress exponent n
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Zusammenfassung:The creep properties of as-cast Mg–9Al–1Si alloy and Mg–9Al–1Si–1SiC composite were compared. The results show that Mg–9Al–1Si–1SiC composite performs a better creep resistance than that of Mg–9Al–1Si alloy at constant temperature and stress (473 K,70 MPa). Besides, the creep behavior of Mg–9Al–1Si–1SiC composite at various temperature from 448 K to 498 K and under stresses of 70–90 MPa were systematically investigated. The Mg–9Al–1Si–1SiC composite exhibited a stress exponent from 5.5 to 6.9 and the creep activation energy fell within the range of 86–111 kJ/mol. The results showed that the creep mechanism of Mg–9Al–1Si–1SiC composite was mainly attributed to the effects of secondary phase strengthening mechanism and dislocation climb mechanism.
ISSN:2213-9567
2213-9567
DOI:10.1016/j.jma.2019.06.004