First-principles investigation of the impurity-kink interaction in bcc iron 被引量：1

First-principles investigation of the impurity-kink interaction in bcc iron

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摘要 Using the first-principles self-consistent discrete variational method based on density functional theory, we investigated the effect of light impurities C and N on the electronic structure of kink on the [100](010) edge dislocation (ED) in bcc iron. Our energetic calculations show that the light impurities have a strong segregation tendency to enter the kink. The results of the charge distribution and the local den-sity of states indicate that the strong bonds between the impurity atoms and the neighboring Fe atoms are formed due to the hybridizations of impurity atoms 2p states and Fe 3d4s4p states. The introduction of light impurities can stabilize the kink system, and impedes the sideward motion of the kink in the [100](010) ED. This is, the light impurities induce a strong pinning effect on the [100](010) ED and may result in the solid solute hardening. Using the first-principles self-consistent discrete variational method based on density functional theory, we investigated the effect of light impurities C and N on the electronic structure of kink on the [100]（010） edge dislocation （ED） in bcc iron. Our energetic calculations show that the light impurities have a strong segregation tendency to enter the kink. The results of the charge distribution and the local density of states indicate that the strong bonds between the impurity atoms and the neighboring Fe atoms are formed due to the hybridizations of impurity atoms 2p states and Fe 3d4s4p states. The introduction of light impurities can stabilize the kink system, and impedes the sideward motion of the kink in the [100]（010） ED. This is, the light impurities induce a strong pinning effect on the [100]（010） ED and may result in the solid solute hardening.

作者 YU Tao CHEN LiQun WANG ChongYu QIU ZhengChen DU JunPing

机构地区 Central Iron and Steel Research Institute College of Sciences Department of Physics

出处《Chinese Science Bulletin》 SCIE EI CAS 2008年第12期1796-1803,共8页

基金 National Basic Research Program of China (Grant No.2006CB605102) National Natural Science Foundation of China (Grant No.90306016)

关键词电子结构交互作用杂质密度泛函理论铁 first-principles, kink, impurity, bcc iron

分类号 O45 [理学—无线电物理]

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