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Effect of solute atoms on dislocation motion in Mg: An electronic structure perspective

机译：电子对镁的溶质原子对位错运动的影响

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Solution strengthening is a well-known approach to tailoring the mechanical properties of structural alloys. Ultimately, the properties of the dislocation/solute interaction are rooted in the electronic structure of the alloy. Accordingly, we compute the electronic structure associated with, and the energy barriers to dislocation cross-slip. The energy barriers so obtained can be used in the development of multiscale models for dislocation mediated plasticity. The computed electronic structure can be used to identify substitutional solutes likely to interact strongly with the dislocation. Using the example of a-type screw dislocations in Mg, we compute accurately the Peierls barrier to prismatic plane slip and argue that Y, Ca, Ti, and Zr should interact strongly with the studied dislocation, and thereby decrease the dislocation slip anisotropy in the alloy.

机译：固溶强化是定制结构合金力学性能的一种众所周知的方法。最终，位错/溶质相互作用的特性根源于合金的电子结构。因此，我们计算了与位错交叉滑动相关的电子结构以及能垒。如此获得的能垒可用于位错介导的可塑性的多尺度模型的开发。计算出的电子结构可用于识别可能与位错强烈相互作用的置换溶质。以Mg中a型螺型位错为例，我们精确地计算了对棱柱面滑移的Peierls势垒，并认为Y，Ca，Ti和Zr应该与所研究的位错强烈相互作用，从而降低了位错滑移各向异性。合金。

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期刊名称 Scientific Reports
作者
T. Tsuru; D. C. Chrzan;
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年(卷),期 -1(5),-1
年度 -1
页码 8793
总页数 8
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1. Effect of solute atoms on dislocation motion in Mg: An electronic structure perspective [J] . T. Tsuru, D. C. Chrzan Scientific reports. . 2015,第1期

机译：溶质原子对镁中位错运动的影响：电子结构的角度
2. Effect of solute atoms on dislocation motion in Mg: An electronic structure perspective [J] . T. Tsuru, D. C. Chrzan Scientific reports. . 2015,第1期

机译：溶质原子对镁中位错运动的影响：电子结构的角度
3. Elastic properties and electronic structures of Y atom solid solute supercell γ-Fe [J] . Jian Yang, Xiaoru Hou, Xiaolei Xing, Journal of Molecular Structure . 2014,第Null期

机译：Y原子固体溶质超级电池γ-Fe的弹性和电子结构
4. Effects of solute atom diffusion dynamics on dislocation motion [C] . Shigenobu Ogata, Akio Ishii, Ju Li, International conference on fracture . 2013

机译：溶质原子扩散动力学对位错运动的影响
5. Ab initio studies on the solvation, electronic structures and intracluster reactions in M(+)L(n), with M(+)=magnesium and calcium singly-charged ions, L=water, methanol, ammonia, and n=1-6, and the elimination of a hydrogen atom in H atom in hydrated sodium clusters [D] . Chan, Ka Wai 2008

机译：从头开始研究M（+）L（n）中的溶剂化，电子结构和簇内反应，其中M（+）=镁和钙的单电荷离子，L =水，甲醇，氨和n = 1-6以及消除水合钠簇中H原子中的氢原子
6. Roles of Localized Electronic Structures Caused by π Degeneracy Due to Highly Symmetric Heavy Atom‐Free Conjugated Molecular Crystals Leading to Efficient Persistent Room‐Temperature Phosphorescence [O] . Shuzo Hirata 2019

机译：高度退化的无原子共轭分子晶体的对称性导致π简并化导致局部电子结构的作用从而导致持久的室温磷光
7. Electronic Structure Calculations of Oxygen Atom Transport Energetics in the Presence of Screw Dislocations in Tungsten [O] . Yue Zhao, Lucile Dezerald, Jaime Marian 2019

机译：在钨螺旋脱位存在下氧原子传输能量的电子结构计算
8. DISLOCATION-SOLUTE ATOM INTERACTIONS IN ALLOYS Technical Progress Report [R] . R. Gibala, V. K. Sethi, R. Pournier 1975

机译：合金技术进步报告中的位错 - 溶质原子相互作用

Effect of solute atoms on dislocation motion in Mg: An electronic structure perspective

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