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Published July 8, 2002 | public
Book Section - Chapter Open

Plastic Deformation in Laser-Induced Shock Compression of Monocrystalline Copper

Meyers, M. A.
Gregori, F.
Kad, B. K.
Schneider, M. S.
Kalantar, D. H.
Remington, B. A.
Wark, J. S.
Boehly, T.
Ravichandran, G. ORCID icon
Others:
Furnish, Michael D.
Horie, Yasuyuki
Thadhani, Naresh N.

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.

Additional Information

©2002 American Institute of Physics Research supported by the Department of Energy Grants DEFG0398DP00212 and DEFG0300SF2202.

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