Explosion, Shock-Wave and High-Strain-Rate Phenomena of Advanced Materials
K Hokamoto
Summary
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 in explosive and other high-rate processing of materials.
Copyright © 2021 Elsevier Inc. All rights reserved.
Key Features
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
Readership
Researchers and engineers in the field of materials science.
Table of Contents
Basic issues of explosion and other high-rate processing of materials
Underwater explosive forming
Underwater explosive welding
Extremely high-rate impact of materials under inclination angle collision
Fabrication of porous materials using explosive welding
Extremely high-rate impact of porous materials
Mechanical behaviour of porous materials under various strain rate