Mechanically driven grain boundary relaxation: a mechanism for cyclic hardening in nanocrystalline Ni

Timothy J. Rupert; Christopher A. Schuh

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Mechanically driven grain boundary relaxation: a mechanism for cyclic hardening in nanocrystalline Ni

机译：机械驱动的晶界弛豫：纳米晶体循环硬化的机制

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Molecular dynamics simulations are used to show that cyclic mechanical loading can relax the non-equilibrium grain boundary (GB) structures of nanocrystalline metals by dissipating energy and reducing the average atomic energy of the system, leading to higher strengths. The GB processes that dominate deformation in these materials allow low-energy boundary configurations to be found through kinematically irreversible structural changes during cycling, which increases the subsequent resistance to plastic deformation.

机译：分子动力学模拟用于表明循环机械负载可以通过散发能量和减少系统的平均原子能量来释放纳米晶金属的非平衡晶界（GB）结构，导致更高的强度。在这些材料中统治变形的GB工艺允许通过在循环期间运动的不可逆结构变化来发现低能量边界配置，这增加了随后的塑性变形的抗性。

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来源
《Philosophical Magazine Letters》 |2012年第3期|共9页
作者
Timothy J. Rupert; Christopher A. Schuh;
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作者单位

Department of Materials Science and Engineering Massachusetts Institute of Technology 77 Massachusetts Avenue Cambridge MA 02139 USA;

Department of Materials Science and Engineering Massachusetts Institute of Technology 77 Massachusetts Avenue Cambridge MA 02139 USA;

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原文格式 PDF
正文语种 eng
中图分类物理学;
关键词
nanocrystalline materials; mechanical properties; grain boundary relaxation; molecular dynamics; plastic deformation;

机译：纳米晶体材料;机械性能;晶界松弛;分子动力学;塑性变形;

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1. Mechanically driven grain boundary relaxation: a mechanism for cyclic hardening in nanocrystalline Ni [J] . Timothy J. Ruperta amp, Christopher A. Schuha* Philosophical Magazine Letters . 2012,第1期

机译：机械驱动的晶界弛豫：纳米晶镍中循环硬化的机制
2. Influences of grain size and grain boundary segregation on mechanical behavior of nanocrystalline Ni [J] . X.F. Zhang, T. Fujita, D. Pan, Materials Science and Engineering . 2010,第9期

机译：晶粒尺寸和晶界偏析对纳米晶Ni力学行为的影响
3. Effect of grain boundary relaxation on the corrosion behaviour of nanocrystalline Ni-P alloy [J] . Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2020,第期

机译：晶界弛豫对纳米镍Ni-P合金腐蚀行为的影响
4. The Grain Boundary Embrittlement and De-Embrittlement Mechanism in Age Hardenable Fe-Ni-Ti Steels [C] . Min-Saeng Kim, Yoon-Uk Heo, Hu-Chul Lee Asian Conference on Heat Treatment of Materials . 2006

机译：年龄封闭式Fe-Ni-Ti钢的晶界脆化和去脆机制
5. Static, Cyclic Deformation Responses and Related Micromechanisms of Ni-Carbonyl CVD Material of Bimodal Grain Structures: Columnar Grains with Ultrafine and Nano-Twins and Ultrafine-Grained Matrix [D] . ?Fu, Shaohua 2020

机译：双峰晶粒结构Ni-羰基CVD材料的静态，循环变形响应及相关微机器：超细和纳米双胞胎和超细颗粒基质的柱状晶粒
6. Softening due to Grain Boundary Cavity Formation and its Competition with Hardening in Helium Implanted Nanocrystalline Tungsten [O] . W. Streit Cunningham, Jonathan M. Gentile, Osman El-Atwani, -1

机译：氦注入纳米晶钨中晶界腔形成的软化及其与硬化的竞争
7. Mechanically driven grain boundary relaxation: a mechanism for cyclic hardening in nanocrystalline Ni [O] . Timothy J. Rupert, Christopher A. Schuh 2011

机译：机械驱动的晶界弛豫：纳米晶Ni中的循环硬化机制
8. Mechanically Driven Grain Boundary Relaxation: A Mechanism for Cyclic Hardening in Nanocrystalline Ni. [R] . Rupert, T. J., Schuh, C. A. 2012

机译：机械驱动晶界弛豫：纳米晶Ni的循环硬化机理。

Mechanically driven grain boundary relaxation: a mechanism for cyclic hardening in nanocrystalline Ni

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