Materials and Structures under Shock and Impact
Materials and Structures under Shock and Impact

Author: Patrice Bailly

Publisher: John Wiley & Sons

Published: 2013-12-11

Total Pages: 323

ISBN-13: 1118815718

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Materials and Structures under Shock and Impact In risk studies, engineers often have to consider the consequences of an accident leading to a shock on a construction. This can concern the impact of a ground vehicle or aircraft, or the effects of an explosion on an industrial site. This book presents a didactic approach starting with the theoretical elements of the mechanics of materials and structures, in order to develop their applications in the cases of shocks and impacts. The latter are studied on a local scale at first. They lead to stresses and strains in the form of waves propagating through the material, this movement then extending to the whole of the structure. The first part of the book is devoted to the study of solid dynamics where nonlinear behaviors come into play. The second part covers structural dynamics and the evaluation of the transient response introduced at the global scale of a construction. Practical methods, simplified methods and methods that are in current use by engineers are also proposed throughout the book.

Shock Wave and High-Strain-Rate Phenomena in Materials
Shock Wave and High-Strain-Rate Phenomena in Materials

Author: 0 Meyers,

Publisher: CRC Press

Published: 2023-07-21

Total Pages: 1852

ISBN-13: 1000950190

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These proceedings of EXPLOMET 90, the International Conference on the Materials Effects of Shock-Wave and High-Strain-Rate Phenomena, held August 1990, in La Jolla, California, represent a global and up-to-date appraisal of this field. Contributions (more than 100) deal with high-strain-rate deforma

Shock Compression of Condensed Materials
Shock Compression of Condensed Materials

Author: R. F. Trunin

Publisher: Cambridge University Press

Published: 2005-09-08

Total Pages: 180

ISBN-13: 9780521019248

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This unique publication summarizes fifty years of Russian research on shock compression of condensed matter using chemical and nuclear explosions. This research has important applications in physics, materials science and engineering. The book places the importance of Russian experiments in a global context. It then describes the experimental devices used, summarizing the results of experiments on pure metals, metal alloys and compounds, minerals, rocks, organic solids and liquids. The book emphasizes theoretical aspects, experimental problems, and data analysis. Since large scale underground nuclear tests have stopped, it will be some time before similar pressures can be generated by alternative means. This book will be of interest to condensed matter physicists, materials scientists, earth scientists and astrophysicists.

Shock Waves in Materials Science
Shock Waves in Materials Science

Author: Akira B. Sawaoka

Publisher: Springer Science & Business Media

Published: 2012-12-06

Total Pages: 239

ISBN-13: 4431682406

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In this volume, the shock compression technology of materials is described in parallel with the latest research results and their background. In the past, this type of technology was developed in connection with military techniques by certain particular research organizations. For this reason, researchers of materials in general have had less opportunity to make use of the technology. The conventional technology of shock compression has now been established, and is recognized as being remarkably useful as a means of materials science study. The feasibility of shock compression technology is dealt with in this book, as well as the latest research results for general material scientists. The shock synthesis of ceramics and intermetallic compounds, as well as shock compression behavior, are also described. In contrast to conventional works of this kind, this book describes shock compression studies performed by material scientists.

Shock Wave and High-Strain-Rate Phenomena in Materials
Shock Wave and High-Strain-Rate Phenomena in Materials

Author: Meyers

Publisher: CRC Press

Published: 1992-05-12

Total Pages: 1860

ISBN-13: 9780824785796

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These proceedings of EXPLOMET 90, the International Conference on the Materials Effects of Shock-Wave and High-Strain-Rate Phenomena, held August 1990, in La Jolla, California, represent a global and up-to-date appraisal of this field. Contributions (more than 100) deal with high-strain-rate deforma

Effects of Explosions on Materials
Effects of Explosions on Materials

Author: Stepan S. Batsanov

Publisher: Springer Science & Business Media

Published: 2013-06-29

Total Pages: 202

ISBN-13: 1475739699

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In the 1950s explosives began to be used to generate ultrahigh pressures in condensed substances in order to modify their properties and structure. Notwithstanding the short duration of an explosion, its energy proved to be high enough to perform physical-chemical transformations of substances, and the new method gained wide industrial applications. It has both advan tages and drawbacks in comparison with the traditional method of static compression. The latter method, notorious for its cumbersome and expensive machin ery, allows one to maintain high pressure as long as one pleases and to regu late the temperature of the sample arbitrarily. But, the pressure available is rather limited and for any increase of this limit one has to pay by the progres sive shrinking of the working volume of a press. The dynamic method has the advantages of low cost and practically no restrictions of magnitude of pressure and the size of a processed sample, but the temperature in a compressed body is no longer controlled by an experi mentor. Rather, it is firmly dictated by the level of loading, according to the equation of state. Hence, it is difficult to recover metastable products and impossible to prepare solids with a low concentration of defects as the dura tion of explosion is too short for their elimination.

Explosion, Shock-Wave and High-Strain-Rate Phenomena of Advanced Materials
Explosion, Shock-Wave and High-Strain-Rate Phenomena of Advanced Materials

Author: Kazuyuki Hokamoto

Publisher: Elsevier

Published: 2021-06-14

Total Pages: 174

ISBN-13: 0128216654

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Materials processing using explosion, shock-wave and high-strain-rate phenomena was developed after WWII, and these explosive forming and welding techniques have since been adopted as an accepted industrial technology. Such extremely high-rate phenomena historically used empirical experiences while the experimental conditions were not well documented due to the difficulties inherent in understanding the real response or behaviour of materials. Based upon the recent development of numerical techniques for analysis and the enriched data available on the behaviour of materials, it is now possible to predict such high-rate phenomena based upon numerical and experimental approaches including optical observation. Explosion, Shock-wave and High-strain-rate Phenomena of Advanced Materials demonstrates the deformation of various materials at high-rate based upon numerical analysis and supported by experimental evidence. The book is recommended for researchers and engineers who would like to learn more about the high-rate effect of materials and those who need to resolve multi-physics problems based on numerical approach. It is also ideal for researchers and engineers interested with explosive and other high-rate processing of materials. Presents numerical techniques on the analysis and enriched data on the behavior of materials based upon a numerical approach Provides case studies to illustrate the various methods discussed Includes mechanical response at high-rates of porous materials

Dynamics of Heterogeneous Materials
Dynamics of Heterogeneous Materials

Author: Vitali Nesterenko

Publisher: Springer Science & Business Media

Published: 2013-03-09

Total Pages: 528

ISBN-13: 1475735243

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This monograph deals with the behavior of essentially nonlinear heterogeneous materials in processes occurring under intense dynamic loading, where microstructural effects play the main role. This book is not an introduction to the dynamic behavior of materials, and general information available in other books is not included. The material herein is presented in a form I hope will make it useful not only for researchers working in related areas, but also for graduate students. I used it successfully to teach a course on the dynamic behavior of materials at the University of California, San Diego. Another course well suited to the topic may be nonlinear wave dynamics in solids, especially the part on strongly nonlinear waves. About 100 problems presented in the book at the end of each chapter will help the reader to develop a deeper understanding of the subject. I tried to follow a few rules in writing this book: (1) To focus on strongly nonlinear phenomena where there is no small parameter with respect to the amplitude of disturbance, including solitons, shock waves, and localized shear. (2) To take into account phenomena sensitive to materials structure, where typical space scale of material parameters (particle size, cell size) are presented in the models or are variable in experimental research.

Fundamentals of Shock Wave Propagation in Solids
Fundamentals of Shock Wave Propagation in Solids

Author: Lee Davison

Publisher: Springer Science & Business Media

Published: 2008-05-07

Total Pages: 439

ISBN-13: 3540745688

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My intent in writing this book is to present an introduction to the thermo- chanical theory required to conduct research and pursue applications of shock physics in solid materials. Emphasis is on the range of moderate compression that can be produced by high-velocity impact or detonation of chemical exp- sives and in which elastoplastic responses are observed and simple equations of state are applicable. In the interest of simplicity, the presentation is restricted to plane waves producing uniaxial deformation. Although applications often - volve complex multidimensional deformation fields it is necessary to begin with the simpler case. This is also the most important case because it is the usual setting of experimental research. The presentation is also restricted to theories of material response that are simple enough to permit illustrative problems to be solved with minimal recourse to numerical analysis. The discussions are set in the context of established continuum-mechanical principles. I have endeavored to define the quantities encountered with some care and to provide equations in several convenient forms and in a way that lends itself to easy reference. Thermodynamic analysis plays an important role in continuum mechanics, and I have included a presentation of aspects of this subject that are particularly relevant to shock physics. The notation adopted is that conventional in expositions of modern continuum mechanics, insofar as possible, and variables are explained as they are encountered. Those experienced in shock physics may find some of the notation unconventional.

Shock Compression and Chemical Reaction of Multifunctional Energetic Structural Materials
Shock Compression and Chemical Reaction of Multifunctional Energetic Structural Materials

Author: Xianfeng Zhang

Publisher: Elsevier

Published: 2022-09-02

Total Pages: 256

ISBN-13: 012819684X

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Shock Compression and Chemical Reaction of Multifunctional Energetic Structural Materials provides an exhaustive overview of the mechanics, kinetics and physio-chemical behavior caused by shock-induced reaction and shock compression on multifunctional energetic structural materials (MESMs). The book covers foundational knowledge on shock waves and Equation of State (EOS), shock parameters, reaction kinetics, impedance matching, and more. In addition, it looks at more advanced subjects such as experimental analysis methods, numerical modeling techniques (from quasi-static to high-strain rates, including void collapse models), how EOS changes when reaction and detonation are involved, and more. Final chapters cover how to obtain EOS curves from experiments and various testing methods and numerical models for non-reactive porous solids and particulate composites, including 1-D reactive flow models. Flyer plate impact experiments are also discussed, as are the applications of hydrocodes and Lagrangian-framework-based methods. - Provides an ideal balance of modeling concepts and experimental techniques - Looks at mechanical testing processes of MESMs - Outlines sample preparation, testing of samples, obtaining EOS from the testing, and using EOS for simulation - Covers modeling for pore collapse, constituent material, and at a granular level