在密度泛函理论框架下,用第一原理DMol团簇方法,基于Rice-Wang热力学模型研究了合金化元素Ti对bcc FeΣ3[110](111)晶界结合的影响.结果表明:合金化元素Ti在晶界和自由表面的偏聚能之差为-0.372 eV,Ti增强晶界结合,为韧性掺杂元素.Ti的化学效应起主要作用,贡献为-0.713 eV,表现为较强的增强晶界结合作用.力学效应即掺杂引起的局域畸变贡献为+0.341 eV,表现为减弱晶界结合的作用.同时分析了Ti对晶界键合的影响,当Ti原子占据晶界时,Ti使得距它较近的跨越晶界的键合加强,反映了Ti强化晶界的作用.
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