Dynamic Behavior of Materials
Addresses fundamentals and advanced topics relevant to the behavior of materials under in-service conditions such as impact, shock, stress and high-strain rate deformations. Deals extensively with materials from a microstructure perspective which is the future direction of research today.
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Dynamic Deformation and Waves
Equations of State
Differential Form of Conservation Equations and Numerical
Shock WaveInduced Phase Transformations and Chemical
adiabatic alloy aluminum amplitude applied armor assumed calculated ceramic Chapter compression constant constitutive equations copper curve cylindrical decreases density detonation velocity dislocation dynamic effects elastic wave experimental Explosive welding flow stress flyer plate fracture fragments free surface function gage High-Strain-Rate Hugoniot impact velocity increases initial interface kinetic energy kinetic energy penetrator km/s L. E. Murr Lagrangian longitudinal longitudinal wave M. A. Meyers mass material Mech mechanisms metals nucleation obtained parameters particle velocity penetration phase transformations Phys plastic deformation plastic wave plot powder predictions pressure produced projectile pulse duration Rayleigh Rayleigh wave region Reprinted with permission schematically Section shaped charges shear band shear stress shear waves shock front shock hardening shock loading shock wave shown in Figure shows solid spall specimen steel strain rate stress-strain curve target temperature tensile pulse tensile stress thermal thickness titanium twinning void volume wave propagation wave velocity