Testing aluminum alloy from quasi-static to dynamic strain-rates with a modified Split Hopkinson Bar method

Othman R; Gary G

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Testing aluminum alloy from quasi-static to dynamic strain-rates with a modified Split Hopkinson Bar method

机译：使用改进的Split Hopkinson Bar方法测试铝合金从准静态到动态应变率

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An aluminum alloy(1) was tested at quasi-static to dynamic strain-rates (from 10(-1) to 5 10(3) s(-1)), using a single measuring device, a modified Split Hopkinson Bar. A wave separation technique [Bussac et al., J Mech Phys Solids 50:321-350, 2002] based on the maximum likelihood method was applied to process the strain and velocity measurements recorded at various points on each bar. With this method, it is possible to compute the stress, strain, displacement and velocity at any point on the bar. Since the measurement time is unlimited, the maximum strain measured in a given specimen no longer decreases with the strain-rate, as occurs with the classical Split Hopkinson Bar method.

机译：使用改良的Split Hopkinson Bar单一测量装置，以准静态到动态应变率（从10（-1）到5 10（3）s（-1））对铝合金（1）进行了测试。应用基于最大似然法的波分离技术[Bussac等人，J Mech Phys Solids 50：321-350，2002]来处理记录在每个条上各个点的应变和速度测量值。使用这种方法，可以计算钢筋上任何一点的应力，应变，位移和速度。由于测量时间不受限制，因此在给定样本中测得的最大应变不再像传统的斯普利特霍普金森棒法那样随应变率而减小。

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《Experimental Mechanics》 |2007年第2期|共5页
作者
Othman R; Gary G;
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正文语种 eng
中图分类实验应力分析;
关键词
Split Hopkinson Bar; medium strain-rates; wave separation; aluminum; VISCOELASTIC BARS; ELASTIC-WAVES; PRESSURE BAR; SEPARATION; FORCE;

机译：分裂霍普金森棒;中应变率;波分离;铝;粘弹性棒;弹性波;压力棒;分离;力;

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Testing aluminum alloy from quasi-static to dynamic strain-rates with a modified Split Hopkinson Bar method

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