Description |
1 online resource (x, 528 pages) : illustrations |
Contents |
The detonation wave -- Performance of explosives and propellants -- Initiation of detonation -- Modeling initiation of heterogeneous explosives -- Interpretation of experiments -- Nobel and PRad -- Appendixes: A. Numerical solution of one-dimensional lagrangian reactive flow -- B. Numerical solution of two-dimensional lagrangian reactive flow --C. Numerical solution of two-dimensional eulerian reactive flow -- D. Numerical solution of three dimensional eulerian reactive flow -- E. Numerical solution of explosive and propellant properties using the BKW equation of state -- F. Equations for computing thermodynamic functions of gases and solids -- G. General derivation of flow equations |
Summary |
Major advances, both in modeling methods and in the computing power required to make those methods viable, have led to major breakthroughs in our ability to model the performance and vulnerability of explosives and propellants. In addition, the development of proton radiography during the last decade has provided researchers with a major new experimental tool for studying explosive and shock wave physics. Problems that were once considered intractable - such as the generation of water cavities, jets, and stems by explosives and projectiles - have now been solved. Numerical Modeling of Explosiv |
Bibliography |
Includes bibliographical references and indexes |
Notes |
Print version record |
Subject |
Detonation waves.
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Explosives.
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Numerical analysis.
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explosive.
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TECHNOLOGY & ENGINEERING -- Chemical & Biochemical.
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Detonation waves
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Explosives
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Numerical analysis
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Form |
Electronic book
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ISBN |
9781420052398 |
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142005239X |
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