Titlebook: High-Pressure Shock Compression of Solids; J. R. Asay,M. Shahinpoor Book 1993 Springer Science+Business Media New York 1993 Phase.X-ray.de

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High-Pressure Shock Compression of Solids978-1-4612-0911-9Series ISSN 2197-9529 Series E-ISSN 2197-9537

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Basic Principles of Shock Compression,s range in scale from the shock waves generated by the collapse of microscopic cavitation bubbles to light-year scale “collisionless shocks” in the interstellar medium. The concept of a shock wave is well illustrated by the flow of snow in front of a moving snowplow (Fig. 2.1). When a plow begins mo

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Equation of State, Walsh and Christian (1955) and Bancroft et al. (1956). Walsh and Christian described the use of in-contact explosives to determine dynamic pressure– volume relations for metals and compare these to the then available static compression data. Bancroft et al. described the first polymorphic phase cha

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Influence of Shock-Wave Deformation on the Structure/Property Behavior of Materials, micromechanisms of deformation during shock loading remain poorly understood. The initial response of a material subjected to explosive or high-velocity impact conditions is to propagate shock waves that rapidly traverse the material. These waves produce dynamic deformations, the extent of strain i

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Micromechanical Considerations in Shock Compression of Solids,as given us the jump conditions, useful concepts of average quantities such as density and specific internal energy (for example), and constitutive descriptions (including equations of state) involving these average quantities and their time rates of change. Even as we profitably use these ideas, we

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Dynamic Fracture and Fragmentation,ents ranges from shaped-charge jet breakup and rock blasting to astro-physical impacts and creation of planetary debris. In rock blasting, for example, specific information on ejecta velocities and fragment size distributions is sought, and methods to control resulting fragment sizes by proper place

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