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Indexed by:期刊论文
Date of Publication:2017-03-24
Journal:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
Included Journals:SCIE、EI、Scopus
Volume:689
Page Number:257-268
ISSN No.:0921-5093
Key Words:Inconel 718; Electron beam smelting; Microstructure; Vickers hardness; Precipitation strengthening
Abstract:Inconel 718 superalloy was fabricated by electron beam smelting (EBS) technique. The effect of solution heat treatment on the precipitation behavior and mechanical properties of EBS 718 superalloys were studied, the strengthening mechanisms were analyzed and related to the mechanical properties. The results indicate that the optimized microstructures can be acquired by means of EBS, which is attributed to the rapid cooling rate of approximately 280 degrees C/min. The solution heat treatment shows a great impact on the microstructures, precipitation behavior and mechanical properties of EBS 718 superalloy. The y(') (') phase shows an apt to precipitate at relatively lower solution temperatures followed by aging, while the y(') precipitates are prone to precipitate at higher, temperatures. When solution treated at 1150 degrees C, the y(') precipitates are dispersively distributed in the matrix with size and volume fraction of 8.43 nm and 21.66%, respectively, a Vickers hardness of approximately 489 HV0.1 is observed for the aged superalloy. The precipitation strengthening effect of EBS 718 superalloy could be elucidated by considering the interaction between the dislocations and y(') (')/y(') precipitates. The shearing of y' is resisted by the coherency strengthening and formation of antiphase boundary (APB), which shows equal effect as weakly coupled dislocation (WCD) model. And for y(') ('), the strengthening effect is much more prominent with the primary strengthening mechanism of ordering. Moreover, it is interestingly found that the strengthening mechanism of stacking fault (SF) shearing coexists with APB shearing, and SF shearing plays a major role in strengthening of EBS 718 superalloy.