Overview
- Editors:
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Marc A. Meyers
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Department of Metallurgical and Materials Engineering, New Mexico Institute of Mining and Technology, Socorro, USA
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Lawrence E. Murr
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Department of Metallurgical and Materials Engineering, New Mexico Institute of Mining and Technology, Socorro, USA
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About this book
The scientific understanding of high-velocity deformation has advanced substantially during the past decade. On the one hand, the framework for a theory explaining the metallurgical effects of shock waves is beginning to take shape; on the other hand, the technological applications of high strain-rate processes have found their way into industries in countries around the world. Ex plosive cladding, welding, forming, compaction and consolidation, cutting, and hardening, in addition to high energy-rate deformation processes using other energy sources, are some of the topics of contemporary technological importance. Metallurgical effects are of the utmost importance in both the scientific understanding of the phenomena involved, and in the successful development and utilization of the associated applications. The international conference upon which this book is based had as its major objectives the acceleration of progress in the field of high-strain rate deformation and fabrication, including applications, by providing a forum for the exchange of state-of-the art information on the metallurgical effects of high strain-rate deformation and fabrication; and the organization of this informa tion into a timely and coherent body of knowledge focused around significant areas and applications. This volume is a manifestation of these objectives. In addition, the contents of this book were organized to provide for a somewhat logical perspective of the fundamentals, development, and state-of-the-art applications of high strain-rate and shock phenomena.
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Table of contents (58 chapters)
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Front Matter
Pages i-xiii
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High Strain-Rate Deformation
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- R. H. Warnes, T. A. Duffey, R. R. Karpp, A. E. Carden
Pages 23-36
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- A. E. Carden, P. E. Williams, R. R. Karpp
Pages 37-50
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- L. W. Meyer, H. D. Kunze, K. Seifert
Pages 51-63
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- David C. Moir, Timothy R. Neal
Pages 65-77
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- Reinhard H. Tham, Alois J. Stilp
Pages 79-89
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- K. P. Staudhammer, C. E. Frantz, S. S. Hecker, L. E. Murr
Pages 91-112
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- M. Stelly, J. Legrand, R. Dormeval
Pages 113-125
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Dynamic Fracture
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Front Matter
Pages 127-128
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- D. R. Curran, L. Seaman, D. A. Shockey
Pages 129-167
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- S. T. S. Al-Hassani, J. F. Silva Gomes
Pages 169-180
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- John Pearson, Stephen A. Finnegan
Pages 205-218
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Adiabatic Shearing
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Front Matter
Pages 219-220
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- G. B. Olson, J. F. Mescall, M. Azrin
Pages 221-247
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- D. A. Shockey, D. C. Erlich
Pages 249-261