Published July 8, 2002
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Plastic Deformation in Laser-Induced Shock Compression of Monocrystalline Copper
Chicago
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Abstract
Copper monocrystals were subjected to shock compression at pressures of 10–60 GPa by a short (3 ns initial) duration laser pulse. Transmission electron microscopy revealed features consistent with previous observations of shock-compressed copper, albeit at pulse durations in the µs regime. The results suggest that the defect structure is generated at the shock front. A mechanism for dislocation generation is presented, providing a realistic prediction of dislocation density as a function of pressure. The threshold stress for deformation twinning in shock compression is calculated from the constitutive equations for slip, twinning, and the Swegle-Grady relationship.
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©2002 American Institute of Physics Research supported by the Department of Energy Grants DEFG0398DP00212 and DEFG0300SF2202.Files
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- Eprint ID
- 3393
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- CaltechAUTHORS:MEYaipcp02
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2006-06-05Created from EPrint's datestamp field
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2021-11-08Created from EPrint's last_modified field
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- American Institute of Physics Conference Proceedings
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- 620