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

Author:

Publisher:

Published: 1991

Total Pages: 7

ISBN-13:

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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.

Influence of Peak Pressure and Pulse Duration on Substructure Development and Threshold Stress Measurements in Shock-loaded Copper
Influence of Peak Pressure and Pulse Duration on Substructure Development and Threshold Stress Measurements in Shock-loaded Copper

Author:

Publisher:

Published: 1987

Total Pages:

ISBN-13:

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Based upon a study of the independent variation of peak pressure and pulse duration upon the shock loading response of OFE copper, the following conclusions can be drawn: (1) Increasing peak pressure or pulse duration was found to decrease the observed dislocation cell size and increase the yield strength and (2) the influence of pulse duration is attributed to the influence of reorganization time on the amount of dislocation generation during the rarefaction release.

High-Pressure Shock Compression of Solids
High-Pressure Shock Compression of Solids

Author: J.R. Asay

Publisher: Springer Science & Business Media

Published: 2012-12-06

Total Pages: 399

ISBN-13: 1461209110

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This book presents a set of basic understandings of the behavior and response of solids to propagating shock waves. The propagation of shock waves in a solid body is accompanied by large compressions, decompression, and shear. Thus, the shear strength of solids and any inelastic response due to shock wave propagation is of the utmost importance. Furthermore, shock compres sion of solids is always accompanied by heating, and the rise of local tempera ture which may be due to both compression and dissipation. For many solids, under a certain range of impact pressures, a two-wave structure arises such that the first wave, called the elastic prescursor, travels with the speed of sound; and the second wave, called a plastic shock wave, travels at a slower speed. Shock-wave loading of solids is normally accomplished by either projectile impact, such as produced by guns or by explosives. The shock heating and compression of solids covers a wide range of temperatures and densities. For example, the temperature may be as high as a few electron volts (1 eV = 11,500 K) for very strong shocks and the densification may be as high as four times the normal density.

Shock Compression of Condensed Matter--1989
Shock Compression of Condensed Matter--1989

Author: American Physical Society

Publisher: North Holland

Published: 1990

Total Pages: 1050

ISBN-13:

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This book presents the most up-to-date collection of research activities in the area of high-pressure shock compression. Current reviews and original research papers are given on theoretical and experimental aspects of high-pressure equations of state, on dynamic plastic response and strength of solids, on numerical simulation and modeling of material response, on fast optical techniques and other advances in experimental technique, on laser-driven shocks, on material modification and shock-induced defects, on geologic and geophysical materials, on dynamic compaction and on modeling and behavior of initiation in energetic materials. Six plenary, 13 invited and 203 research papers are presented.

Shock Compression of Condensed Matter - 2005
Shock Compression of Condensed Matter - 2005

Author: Michael D. Furnish

Publisher: American Institute of Physics

Published: 2006-08-24

Total Pages: 842

ISBN-13: 9780735403413

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This book constitutes the Proceedings of the Conference of the American Physical Society Topical Group on Shock Compression of Condensed Matter, Baltimore, Maryland USA, 2005. The volume embodies the most recent research on shock compression of condensed matter and includes 363 plenary, invited, and contributed papers, all peer-reviewed. Topics include: equations of state, phase transitions, chemical reactions, warm dense matter, fracture, geophysics and planetary science, energetic materials, optical studies, and more.