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Atomic-scale computer simulation for early precipitation process of Ni75Al10V15 alloy
引用本文:ZHAO Yuhong,CHEN Zheng,WANG Yongxin,LU Yanli. Atomic-scale computer simulation for early precipitation process of Ni75Al10V15 alloy[J]. 自然科学进展(英文版), 2004, 14(3): 241-246. DOI: 10.1080/10020070412331343411
作者姓名:ZHAO Yuhong  CHEN Zheng  WANG Yongxin  LU Yanli
作者单位:Department of Materials Science and Engineering, Northwestern Polytechnical University, Xi'an 710072, China,Department of Materials Science and Engineering, Northwestern Polytechnical University, Xi'an 710072, China,Department of Materials Science and Engineering, Northwestern Polytechnical University, Xi'an 710072, China,Department of Materials Science and Engineering, Northwestern Polytechnical University, Xi'an 710072, China
摘    要:The kinetic model for a ternary system is introduced based on the microscopic diffusion form of the phase-field equations for a binary alloy. The equation is solved in the reciprocal space. This model is used to investigate the early precipitation process of Ni75-Al10V15 by simulating the atomic pictures of the two ordered phases and calculating the order parameters of γ′(Ni3Al) phase. Simulation results show that the γ′ ordered phases precipitate from the disordered matrix by a non-classical nucleation mechanism, and the nonstoichiometric γ′ ordered phase appears first and then transforms into the stoichiometric one. Clusters of V atoms appear at the γ′ phase boundaries followed by the formation of the nonstoichiometric θ ordered phase. The farther the location from γ′ phase boundary is, the lower the order degree of θ phase is. There exist two kinds of DO22 ordered domains: a horizontal one and a vertical one, related to their adjacent γ′ phase boundaries. The model could describe the atomic ordering and composition clustering simultaneously, and any a priori assumption about the new phase structure and precipitation mechanism etc. is unnecessary.

关 键 词:early precipitation process   computer simulation   Ni75Al10V15 alloy

Atomic-scale computer simulation for early precipitation process of Ni75Al10V15 alloy
ZHAO Yuhong,CHEN Zheng,WANG Yongxin,LU Yanli. Atomic-scale computer simulation for early precipitation process of Ni75Al10V15 alloy[J]. Progress in Natural Science, 2004, 14(3): 241-246. DOI: 10.1080/10020070412331343411
Authors:ZHAO Yuhong  CHEN Zheng  WANG Yongxin  LU Yanli
Affiliation:Department of Materials Science and Engineering, Northwestern Polytechnical University, Xi'an 710072, China
Abstract:The kinetic model for a ternary system is introduced based on the microscopic diffusion form of the phase-field equations for a binary alloy. The equation is solved in the reciprocal space. This model is used to investigate the early precipitation process of Ni75-Al10V15 by simulating the atomic pictures of the two ordered phases and calculating the order parameters of γ′(Ni3Al) phase. Simulation results show that the γ′ ordered phases precipitate from the disordered matrix by a non-classical nucleation mechanism, and the nonstoichiometric γ′ ordered phase appears first and then transforms into the stoichiometric one. Clusters of V atoms appear at the γ′ phase boundaries followed by the formation of the nonstoichiometric θ ordered phase. The farther the location from γ′ phase boundary is, the lower the order degree of θ phase is. There exist two kinds of DO22 ordered domains: a horizontal one and a vertical one, related to their adjacent γ′ phase boundaries. The model could describe the atomic ordering and composition clustering simultaneously, and any a priori assumption about the new phase structure and precipitation mechanism etc. is unnecessary.
Keywords:early precipitation process  computer simulation  Ni75Al10V15 alloy
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