Influence of Loading Rate on the Mechanical Response and Substructure Evolution of Shock-loaded Copper PDF Download

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Influence of Loading Rate on the Mechanical Response and Substructure Evolution of Shock-loaded Copper

Influence of Loading Rate on the Mechanical Response and Substructure Evolution of Shock-loaded Copper PDF Author:
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Languages : en
Pages : 7

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Book Description
Shock recovery experiments on copper have been conducted to investigate the influence of loading rate and stress amplitude on defect storage and post-shock mechanical properties. The shock risetimes varied approximately from one nanosecond for the shock experiments to one microsecond for quasi-isentropic loading experiments. All the experiments had the same peak pressure and pulse duration. Decreasing the strain-rate of loading is shown to increase both the defect storage and post-shock yield strength of copper. The effect of loading rate on post-shock substructure and mechanical response of impacted copper is postulated to be directly related to the amount of dislocation motion before interaction with other dislocations and to the amount of reversible dislocation motion and resultant annihilation during the rarefaction portion of the shock-release cycle. 10 refs., 5 figs.