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Investigation on grain size effect in high strain rate ductility of 1100 pure aluminum

机译：1100纯铝高应变率延性中晶粒尺寸效应的研究

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The effect of the initial grain size on the material ductility at high strain rates in 1100 pure aluminum was investigated. Dynamic tensile extrusion (DTE) tests, at different impact velocities, were performed. Samples have been annealed at 350°C for different exposure times to induce grain growth. Extruded fragments were soft-recovered and the overall length of the extruded jets was used as a measure of material ductility at high strain rates. Numerical simulation of DTE test at different velocity was performed using the modified Rusinek-Klepaczko constitutive model. Results indicates that, as reported for pure copper, the overall ductility of the aluminum increases when grain size decreases. Numerical simulation results were in quite good agreement with experimental data.

机译：研究了在1100纯铝中高应变速率下初始晶粒尺寸对材料延展性的影响。在不同的冲击速度下进行了动态拉伸挤出（DTE）测试。样品已在350°C退火不同的暴露时间，以诱导晶粒生长。将挤出的碎片软回收，并使用挤出射流的总长度作为高应变速率下材料延展性的量度。使用改进的Rusinek-Klepaczko本构模型对不同速度的DTE测试进行了数值模拟。结果表明，正如纯铜所报道的那样，当晶粒尺寸减小时，铝的整体延展性增加。数值模拟结果与实验数据非常吻合。

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Bonora, N; Bourne, Neil; Ruggiero, A.; Iannitti, G; Testa, G;
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6. Molecular Dynamics as a Means to Investigate Grain Size and Strain Rate Effect on Plastic Deformation of 316 L Nanocrystalline Stainless-Steel [O] . Abdelrahim Husain, Peiqing La, Yue Hongzheng, 2020

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Investigation on grain size effect in high strain rate ductility of 1100 pure aluminum

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