Journal
METALLURGICAL AND MATERIALS TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE
Volume 49A, Issue 5, Pages 1571-1578Publisher
SPRINGER
DOI: 10.1007/s11661-018-4515-5
Keywords
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Funding
- Strategic Emerging Industry Project of Sichuan Province [SC201351010620]
- China Huaneng Power International Inc [HNKJ17-H10]
- China Postdoctoral Science Foundation [2017M623213]
- Shaanxi Provincial People's and Social Welfare Department [2017031]
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The effect of temperature on the deformation mechanism and corresponding tensile properties of Haynes 282 is investigated in the temperature range from room temperature to 800 A degrees C. It is found that below 600 A degrees C, the yield strength remains basically unchanged with increasing temperature, while, above the temperature, a dramatic decrease in the yield strength is observed. Transmission electron microscopy observations on the slightly deformed specimens reveal that, for the experimental alloy, the plastic deformation is accomplished predominantly by pairs of a/2aOE (c) 101 > dislocation shearing through gamma' precipitates at temperatures between room temperature and 600 A degrees C and by individual matrix dislocation bypassing gamma' precipitates above 760 A degrees C, whereas at temperatures between the two temperatures, anti-phase boundary shearing and stacking fault shearing as well as Orowan looping operate simultaneously during the initial plastic deformation. Based on the experimental observations, it is deemed that the transitions in the deformation mechanisms account for the variation of the yield strength of the experimental alloy with temperature.
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