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Abstract
In this paper, the grain growth behavior of a SiC particle–reinforced nickel-based nanocomposite was studied at temperatures of 410°C and 450°C and at strain rates ranging from 8.3 × 10−4 s−1 to 5 × 10−2 s−1. A significant grain growth was observed in both the annealed and deformed specimens. It was found that the static grain growth contributed more to the overall grain growth, and the dynamic grain growth was relatively small at high strain rates. The findings suggested that the thermal stability of the composite should be enhanced as its superplasticity and post-formed properties were greatly affected by the grain growth. Based on the observed microstructural changes, the deformation mechanisms of the composite are also discussed in this paper.
ACKNOWLEDGMENT
The work described in this paper was supported by a grant from Research Grants Council of the Hong Kong Special Administration Region (Project No.: PolyU5260/03E). Support from The Hong Kong Polytechnic University is also acknowledged.
Notes
* Superplasticity is not realized at this condition.
* Superplasticity is not realized at this condition.