三维应变分配分析方法揭示了球墨铸铁凝固区域的微观力学影响

C. L. Xu, T. Andriollo, Yubin Zhang, J. C. Hernando, J. Hattel, N. Tiedje
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引用次数: 11

摘要

摘要采用原位x射线断层扫描、数字体积相关和死后金相检验相结合的方法,研究了球墨铸铁拉伸载荷作用下先固化区(FTS)和后固化区(LTS)之间的应变分配。结果表明,塑性剪切带主要是由同一FTS区域内的石墨颗粒连接形成的。引入了一个特殊的距离函数,表明这是由于FTS区域的强度低于LTS区域,但也与颗粒相关的应力浓度较高有关。该方法是通用的,因此可扩展到含有类似微观结构异质性的材料系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Micromechanical Impact of Solidification Regions in Ductile Iron Revealed Via a 3D Strain Partitioning Analysis Method
Abstract Strain partitioning between first-to-solidify (FTS) and last-to-solidify (LTS) regions upon tensile loading of ductile iron was investigated by combining in-situ X-ray tomography with digital volume correlation and postmortem metallographic examinations. The results indicate that the plastic shear bands form mainly by linking graphite particles contained in the same FTS region. A special distance function is introduced to show that this is due to the lower strength of the FTS regions compared to the LTS regions, but also to the higher stress concentration associated with the particles. The methodology is general and therefore extendable to material systems containing similar microstructural heterogeneities.
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