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ShockWave Science and Technology Reference Library

Contributor(s): Horie, Yasuyuki [editor.] | SpringerLink (Online service).
Material type: materialTypeLabelBookPublisher: Berlin, Heidelberg : Springer Berlin Heidelberg, 2007.Description: XV, 369 p. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9783540684084.Subject(s): Physics | Continuum physics | Condensed matter | Engineering | Mechanics | Mechanics, Applied | Materials science | Physics | Condensed Matter Physics | Materials Science, general | Theoretical and Applied Mechanics | Classical Continuum Physics | Engineering, generalDDC classification: 530.41 Online resources: Click here to access online
Contents:
Use of the Z Accelerator for Isentropic and Shock Compression Studies -- Ultrashort Laser Shock Dynamics -- Failure Waves and Their Effects on Penetration Mechanics in Glass and Ceramics -- Empirical Equations of State for Solids -- Elastic–Plastic Shock Waves -- Elements of Phenomenological Plasticity: Geometrical Insight, Computational Algorithms, and Topics in Shock Physics -- Numerical Methods for Shocks in Solids -- Mesoscale Modeling of Shocks in Heterogeneous Reactive Materials.
In: Springer eBooksSummary: This book is the first of several volumes on solids in the Shock Wave Science and Technology Reference Library. These volumes are primarily concerned with high-pressure shock waves in solid media, including detonation, high-velocity impact, and penetration. Of the eight chapters in this volume three chapters survey recent, exciting experimental advances in - ultra-short shock dynamics at the atomic and molecular scale (D.S. More, S.D. Mcgrane, and D.J. Funk), - Z accelerator for ICE and Shock compression (M.D. Knudson), and - failure waves in glass and ceramics (S.J. Bless and N.S. Brar). The subsequent four chapters are foundational, and cover the subjects of - equation of state (R. Menikoff), - elastic-plastic shock waves (R. Menikoff), - continuum plasticity (R. M. Brannon), and - numerical methods (D. J. Benson). The last chapter, but not the least, describes a tour de force illustration of today’s computing power in - modeling heterogeneous reactive solids at the grain scale (M.R. Baer). All chapters are each self-contained, and can be read independently of each other, though they are of course thematically interrelated. They offer a timely reference, for beginners, as well as professional scientists and engineers, on the foundations of shock waves in solids with new viewpoints, and on the burgeoning developments. .
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Use of the Z Accelerator for Isentropic and Shock Compression Studies -- Ultrashort Laser Shock Dynamics -- Failure Waves and Their Effects on Penetration Mechanics in Glass and Ceramics -- Empirical Equations of State for Solids -- Elastic–Plastic Shock Waves -- Elements of Phenomenological Plasticity: Geometrical Insight, Computational Algorithms, and Topics in Shock Physics -- Numerical Methods for Shocks in Solids -- Mesoscale Modeling of Shocks in Heterogeneous Reactive Materials.

This book is the first of several volumes on solids in the Shock Wave Science and Technology Reference Library. These volumes are primarily concerned with high-pressure shock waves in solid media, including detonation, high-velocity impact, and penetration. Of the eight chapters in this volume three chapters survey recent, exciting experimental advances in - ultra-short shock dynamics at the atomic and molecular scale (D.S. More, S.D. Mcgrane, and D.J. Funk), - Z accelerator for ICE and Shock compression (M.D. Knudson), and - failure waves in glass and ceramics (S.J. Bless and N.S. Brar). The subsequent four chapters are foundational, and cover the subjects of - equation of state (R. Menikoff), - elastic-plastic shock waves (R. Menikoff), - continuum plasticity (R. M. Brannon), and - numerical methods (D. J. Benson). The last chapter, but not the least, describes a tour de force illustration of today’s computing power in - modeling heterogeneous reactive solids at the grain scale (M.R. Baer). All chapters are each self-contained, and can be read independently of each other, though they are of course thematically interrelated. They offer a timely reference, for beginners, as well as professional scientists and engineers, on the foundations of shock waves in solids with new viewpoints, and on the burgeoning developments. .

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