立方单晶中的多重弹性激波

IF 1.7 4区 工程技术 Q3 MECHANICS Shock Waves Pub Date : 2023-06-26 DOI:10.1007/s00193-023-01137-2
Q. Liu, Y. F. Xu, S. C. Hu, Y. X. Li, Y. Cai, S. N. Luo
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引用次数: 0

摘要

多重弹性激波携带着动态极端条件下的弹性特性信息,但可能使包括弹塑性转换在内的波结构解释复杂化。在声波方程分析的基础上,我们预测了在特定晶体取向的冲击载荷下单晶中不存在或存在多个弹性激波。以典型的FCC和BCC单晶作为验证和应用实例。对Cu和Ta进行了大尺度分子动力学模拟;在模拟中观察到弹性激波的双波或三波结构(准纵波和准横波),其多波结构与波动方程分析非常吻合。同时,利用声波方程分析方法,分析了弹塑性变形过程中激波的复杂结构以及弹塑性变形过程中的弹塑性动力学计算。研究了自由表面速度历史、自由表面横向速度历史和超快x射线衍射作为分解多重弹性激波的实验手段。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Multiple elastic shock waves in cubic single crystals

Multiple elastic shock waves carry the information on elastic properties under dynamic extreme conditions, but may complicate the interpretation of wave structure including the elastic–plastic transition. On the basis of the acoustic wave-equation analysis, we predict the absence or presence of multiple elastic shock waves in a single crystal subjected to shock loading along a specific crystallographic orientation. Typical FCC and BCC single crystals are taken as validation and application cases. Large-scale molecular dynamics simulations are performed for Cu and Ta; double-wave or triple-wave structures of elastic shock waves (quasilongitudinal and quasitransverse) are observed in the simulations, and the multi-wave structures are in excellent agreement with the wave-equation analysis. Also, the acoustic wave-equation analysis is used to analyze MD calculations, as well as the complex structure of the shock wave during plastic deformation. Free-surface velocity history, transverse velocity history of free surface, and ultrafast X-ray diffraction are explored as experimental means to resolve multiple elastic shock waves.

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来源期刊
Shock Waves
Shock Waves 物理-力学
CiteScore
4.10
自引率
9.10%
发文量
41
审稿时长
17.4 months
期刊介绍: Shock Waves provides a forum for presenting and discussing new results in all fields where shock and detonation phenomena play a role. The journal addresses physicists, engineers and applied mathematicians working on theoretical, experimental or numerical issues, including diagnostics and flow visualization. The research fields considered include, but are not limited to, aero- and gas dynamics, acoustics, physical chemistry, condensed matter and plasmas, with applications encompassing materials sciences, space sciences, geosciences, life sciences and medicine. Of particular interest are contributions which provide insights into fundamental aspects of the techniques that are relevant to more than one specific research community. The journal publishes scholarly research papers, invited review articles and short notes, as well as comments on papers already published in this journal. Occasionally concise meeting reports of interest to the Shock Waves community are published.
期刊最新文献
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