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Electron irradiation-induced defects in Mo-diluted FeCrNi austenitic alloy during void swelling incubation

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Abstract. The microstructural features and the effect of Mo addition in FeCrNi austenitic alloy during incubation period were investigated using positron annihilation technique and micro-Vickers Hardness. The electron irradiation, which could induce vacancy defects in material, was performed at room temperature up to the dose of 1.70-4 and 50-4 dpa, respectively. The defect concentration was estimated about 10-4-10-7 though the standard trapping model. The added Mo atoms could trap vacancies to form Mo-vacancy complexes, which may restrain the migration and growth of vacancy defects during electron irradiation. In addition, the microstructural evolution during electron radiation resulted in hardening, while the added Mo might improve the hardening property of the alloy.
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Recommended references: B. Y. Wang,E. Y. Lu,C. X. Zhang,Q. Xu,S. X. Jin,P. Zhang,X. Z. Cao.(2017).Electron irradiation-induced defects in Mo-diluted FeCrNi austenitic alloy during void swelling incubation.[ChinaXiv:201703.00574] (Click&Copy)
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[V1] 2017-03-26 19:36:59 chinaXiv:201703.00574V1 Download
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