Combining in situ Transmission Electron Microscopy and Molecular Dynamics Computer Simulations to Reveal the Interaction Mechanisms of Dislocations With Stacking-Fault Tetrahedron in Nuclear Materials

Matsukawa Y; Briceno M; Robertson IM

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Combining in situ Transmission Electron Microscopy and Molecular Dynamics Computer Simulations to Reveal the Interaction Mechanisms of Dislocations With Stacking-Fault Tetrahedron in Nuclear Materials

机译：结合原位透射电子显微镜和分子动力学计算机模拟揭示核材料中位错与堆积断裂四面体的相互作用机理

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In situ straining experiments conducted in a transmission electron microscope have been performed to reveal how dislocations interact with and annihilate isolated stacking-fault tetrahedra, common defect clusters in irradiated face-centered cubic metals. Comparison of the experimental results with the predictions from molecular dynamics computer simulations shows some similarities and some striking differences. The comparison suggests challenges for the simulations and demonstrates how, despite the disparity in operational parameters, the simulations can be used to interpret experimental results. Microsc. Res. Tech. 72:284-292, 2009.

机译：已经进行了在透射电子显微镜中进行的原位应变实验，以揭示位错如何与被辐照的面心立方金属中的常见堆积缺陷四面体，常见缺陷簇相互作用并使其消失。实验结果与分子动力学计算机模拟的预测结果的比较显示出一些相似之处和一些显着差异。比较结果为仿真提出了挑战，并说明了尽管操作参数存在差异，但如何将仿真用于解释实验结果。 Microsc。 Res。科技72：284-292，2009。

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《Microscopy research and technique》 |2009年第3期|共9页
作者
Matsukawa Y; Briceno M; Robertson IM;
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正文语种 eng
中图分类显微镜;
关键词
transmission electron microscope; simulation; dislocation;

机译：透射电镜;模拟;位错;

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1. Combining in situ Transmission Electron Microscopy and Molecular Dynamics Computer Simulations to Reveal the Interaction Mechanisms of Dislocations With Stacking-Fault Tetrahedron in Nuclear Materials [J] . Matsukawa Y, Briceno M, Robertson IM Microscopy research and technique . 2009,第3期

机译：结合原位透射电子显微镜和分子动力学计算机模拟揭示核材料中位错与堆积断裂四面体的相互作用机理
2. Mechanical properties of Si nanowires as revealed by in situ transmission electron microscopy and molecular dynamics simulations [J] . Tang D.-M., Ren C.-L., Wang M.-S., Nano letters . 2012,第4期

机译：原位透射电子显微镜和分子动力学模拟显示的硅纳米线的机械性能
3. Carbon Formation Mechanism of C2H2 in Ni-Based Catalysts Revealed by in Situ Electron Microscopy and Molecular Dynamics Simulations [J] . Chunwen Sun, Rui Su, Jian Chen, ACS Omega . 2019,第5期

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4. Molecular Dynamics Simulation of Dislocation-Obstacle Interactions in Irradiated Materials [C] . Hyon-Jee Lee, Jae-Hyeok Shim, Brian D. Wirth International Conference on The Mechanical Behavior of Materials; 20070527-31; Busan(KR) . 2007

机译：辐照材料中位错-障碍相互作用的分子动力学模拟
5. In situ transmission electron microscopy studies of dislocation/defect interactions in silicon germanium/silicon heterostructures. [D] . Stach, Eric Andrew. 1998

机译：硅锗/硅异质结构中位错/缺陷相互作用的原位透射电子显微镜研究。
6. Carbon Formation Mechanism of C2H2 in Ni-BasedCatalysts Revealed by in Situ Electron Microscopy andMolecular Dynamics Simulations [O] . Chunwen Sun, *, Rui Su, 2019

机译：镍基中C2H2的碳形成机理催化剂的原位电子显微镜和分子动力学模拟
7. Interactions between lattice dislocations and grain boundaries in L12 ordered compounds investigated by in situ transmission electron microscopy and computer modelling experiments [O] . Hosson, J.Th.M. de, Pestman, B.P. 1993

机译：通过原位透射电子显微镜和计算机模拟实验研究了L12有序化合物中晶格位错与晶界之间的相互作用

Combining in situ Transmission Electron Microscopy and Molecular Dynamics Computer Simulations to Reveal the Interaction Mechanisms of Dislocations With Stacking-Fault Tetrahedron in Nuclear Materials

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