Coarsening behavior of MX carbonitrides in type 347H heat-resistant austenitic steel during thermal aging 被引量：4

Coarsening behavior of MX carbonitrides in type 347H heat-resistant austenitic steel during thermal aging

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摘要 In this work, the growth kinetics of MX （M - metal, X - C/N） nanoprecipitates in type 347H austenitic steel was systematically studied. To investigate the coarsening behavior and the growth mechanism of MX carbonitrides during long-term aging, experiments were performed at 700, 800, 850, and 900℃ for different periods （1, 24, 70, and 100 h）. The precipitation behavior of carbonitrides in specimens subjected to various aging conditions was explored using carbon replicas and transmission electron microscopy （TEM） observations. The corresponding sizes ofMX carbonitrides were measured. The results demonstrates that MX carbonitrides precipitate in type 347H austenitic steel as Nb（C,N）. The coarsening rate constant is time-independent; however, an increase in aging temperature results in an increase in coarsening rate of Nb（C,N）. The coarsening process was analyzed according to the calculated diffusion activation energy of Nb（C,N）. When the aging temperature was 800-900℃, the mean activation energy was 294 kJ·mol -1, and the coarsening behavior was controlled primarily by the diffusion of Nb atoms. In this work, the growth kinetics of MX （M - metal, X - C/N） nanoprecipitates in type 347H austenitic steel was systematically studied. To investigate the coarsening behavior and the growth mechanism of MX carbonitrides during long-term aging, experiments were performed at 700, 800, 850, and 900℃ for different periods （1, 24, 70, and 100 h）. The precipitation behavior of carbonitrides in specimens subjected to various aging conditions was explored using carbon replicas and transmission electron microscopy （TEM） observations. The corresponding sizes ofMX carbonitrides were measured. The results demonstrates that MX carbonitrides precipitate in type 347H austenitic steel as Nb（C,N）. The coarsening rate constant is time-independent; however, an increase in aging temperature results in an increase in coarsening rate of Nb（C,N）. The coarsening process was analyzed according to the calculated diffusion activation energy of Nb（C,N）. When the aging temperature was 800-900℃, the mean activation energy was 294 kJ·mol -1, and the coarsening behavior was controlled primarily by the diffusion of Nb atoms.

作者 Ying-hui Zhou Chen-xi Liu Yong-chang Liu Qian-ying Guo Hui-jun Li

机构地区 State Key Lab of Hydraulic Engineering Simulation and Safety

出处《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2016年第3期283-293,共11页 矿物冶金与材料学报（英文版）

基金 the China National Funds for Distinguished Young Scientists (No.51325401) the National High Technology Research and Development Program of China (No.2015AA042504) the National Natural Science Foundation of China (No.51474156) for financial support

关键词 austenitic steel heat resistance CARBONITRIDES COARSENING NANOPARTICLES DIFFUSION thermal aging austenitic steel heat resistance carbonitrides coarsening nanoparticles diffusion thermal aging

分类号 TG142.73 [金属学及工艺—金属材料]

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