High-rate dislocation motion in stable nanocrystalline metals

Lloyd Jeffrey T.

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High-rate dislocation motion in stable nanocrystalline metals

机译：稳定的纳米晶金属中的高速脱位运动

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Dislocation-mediated plasticity in stable nanocrystalline metals, where grain boundary motion is suppressed, is revisited in the context of dislocation elastodynamics. The effect of transient waves that emanate from the generation and motion of dislocations is quantified for an idealized Cu-10 at.% Ta system with grain sizes on the order of 50 nanometers. Simulations indicate that for this material, as dislocation velocities approach 0.60.8 times the shear wave speed, grains several grain diameters away from the initial glide event experience a large transient shear stress for a finite duration. These transient shear stresses increase with increasing glide velocity and can activate nucleation sites far from the original nucleation event. These considerations are used to explain recent experimental observations of a lack of increase in flow stress with increasing loading rate, as well as localization resistance, in this class of stable nanocrystalline metals.

机译：抑制晶界运动的稳定纳米晶金属中的脱位介导的塑性度，在错位弹性动力学的背景下重新审视。从发电和脱位的产生和运动的瞬态波的影响被定量为理想化的Cu-10。％Ta系统，大约50纳米的晶粒尺寸。模拟表明，对于这种材料，作为剪力速度的位错速度接近剪切波速的0.60.8倍，谷物几个远离初始滑行事件的晶粒直径经历大的瞬态剪切应力以进行有限持续时间。这些瞬态剪切应力随着滑动速度的增加而增加，并且可以激活远离原始成核事件的成核网站。这些考虑因素用于解释近期流量胁迫缺乏增加的实验观察，随着载荷的增加，以及本类稳定的纳米晶金属。

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来源
《Journal of Materials Research》 |2019年第13期|2252-2262|共11页
作者
Lloyd Jeffrey T.;
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作者单位

US Army Res Lab Impact Phys Branch Aberdeen Proving Ground MD 21005 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
dislocations; grain boundaries; strength;

机译：脱臼;晶界;力量;

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专利

1. High-rate dislocation motion in stable nanocrystalline metals [J] . Lloyd Jeffrey T. Journal of Materials Research . 2019,第13期

机译：稳定的纳米晶金属中的高速位错运动
2. Dislocation nucleation and motion in metals and alloys at high-rate deformation: Molecular dynamic simulation [J] . Kuksin A. Yu., Yanilkin A. V. Mechanics of solids . 2015,第1期

机译：高速变形下金属和合金中的位错形核和运动：分子动力学模拟
3. Effects of stable and unstable stacking fault energy on dislocation nucleation in nano-crystalline metals [J] . Borovikov Valery, Mendelev Mikhail I., King Alexander H. Modelling and simulation in materials science and engineering . 2016,第8期

机译：稳定和不稳定的堆垛层错能量对纳米晶体金属中位错成核的影响
4. Evolution of perturbations of temperature and dislocation density at high-rate shear deformation of pure metals and alloys [C] . Alexander E.Mayer, Elijah N.Borodin, Polina N.Mayer, International conference on fracture . 2013

机译：纯金属和合金高速剪切变形时温度和位错密度的扰动演化
5. Theoretical study of dislocation motion in metals. [D] . Hiratani, Masato. 2000

机译：金属中位错运动的理论研究。
6. Dislocation–Twin Boundary Interactions Induced Nanocrystalline via SPD Processing in Bulk Metals [O] . Fucheng Zhang, Xiaoyong Feng, Zhinan Yang, -1

机译：通过散装金属中的SPD加工引起的位错-孪生边界相互作用诱导纳米晶。
7. Grain boundary complexions and the strength of nanocrystalline metals: Dislocation emission and propagation [O] . Turlo, Vladyslav, Rupert, Timothy J. 2017

机译：晶界表面和纳米金属的强度：位错发射和传播

High-rate dislocation motion in stable nanocrystalline metals

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