Brings together the various analytical and experimental aspects of impact dynamics, presenting a broad overview of the response of material and structures subjected to intense short-duration loading under conditions varying from low-speed to hypervelocity. Provides a fundamental approach to the methods and techniques of a number of engineering and applied physical disciplines, demonstrating their application to ballistics, high strain rate materials behavior, safe design of materials and structures, and intense, short-duration loading and dynamic failure.
52 pages matching shear stress in this book
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acceleration achieved aluminum analysis approach approximately ASME assumed ballistic limit Ballistic Research Laboratory boundary calculations cameras characteristics codes compression constant constitutive equation crack crater cylinder damage deformation density determined developed diameter displacement dynamic elastic wave electronic energy experiments explosive failure fracture fragments geometry Hallquist Herrmann high-speed hypervelocity impact end impact velocity impactor incremental km/s Lagrangian loading long rods longitudinal wave material behavior Mech mechanical method motion nucleation obtained occurs parameters penetration perforation photocathode plastic strain plastic wave propagation plate predicted pressure problem produce projectile pulse rate-independent RI theory shear bands shear stress shock wave shown in Figure simulation solid solution spall specimen speed split Hopkinson bar static steel strain rates strain-rate effects streak cameras strength stress waves stress-strain curve striking velocity surface target material technique tensile tensile stresses thickness three-dimensional tion tube uniaxial strain uniaxial stress voids wave propagation x-ray yield