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.
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Table of Contents
1. Preparation and Microstructures of MESMs2. Hugoniot Equation of State (EOS) for MESMs
3. Thermochemical modeling on Shock-induced chemical reaction of MESMs
4. Meso-scale modelling of shock compression of MESMs
5. Multiscale modelling on shock-induced reaction of MESMs
6. Mechanical testing of MESMs
7. Experimental studies on chemical reaction of MESMs
8. Application of MESMs
