Dynamic Plasticity, Volume 10This book presents a self-contained and comprehensive look at the field of dynamic plasticity for researchers and graduates in mechanical engineering. Drawing on the author's long career in the field, the book greatly extends material from the 1967 original edition with the addition of fresh research chapters as well as a full introduction to the elementary theory of plasticity.The coverage of new areas includes a chapter on rocks and soils, the various developments in research on rate type, and novel problems concerning non-homogenous Bingham fluids, such as flow along an inclined slope. Other chapters consider the latest issues in metal working, such as drawing, floating plug, and extrusion. New problems concerning the perforation of plates with high velocity are also included. |
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... Stress Waves in Thin Bars 105 3.1 The Equation of Motion . . . . . . . . . . . . . . . . . . . . . . . . 105 3.2 ... Yield Stress . . . . . . . . . . . 290 7. Axi-Symmetrical Problems 315 7.1 Introduction ...
... Stress Waves in Thin Bars 105 3.1 The Equation of Motion . . . . . . . . . . . . . . . . . . . . . . . . 105 3.2 ... Yield Stress . . . . . . . . . . . 290 7. Axi-Symmetrical Problems 315 7.1 Introduction ...
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Contents
Introduction | 1 |
Yield Conditions | 15 |
Rocks and Soils | 53 |
The Propagation of Longitudinal Stress Waves in Thin Bars | 105 |
Rate Influence | 169 |
Mechanics of Extensible Strings | 217 |
Flow of a Bigham Fluid | 251 |
Cylinders Reiner 1960 | 259 |
AxiSymmetrical Problems | 315 |
Plastic Waves Perforation | 383 |
Hypervelocity Impact Information | 425 |
Author Index | 447 |
457 | |
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Common terms and phrases
applied assumed behavior body boundary characteristic components compression computed considered constant constitutive equation continuous corresponding creep Cristescu curves cylinder damage decrease deformation density depends describe determined different domain drawing dynamic effect elastic energy et al example experimental experiments expressed failure falling field first flow fluid follows force formula friction front function given impact impact velocity increase influence initial integral limit lines loading material measured Mech mechanical metals method motion numerical observed obtained parameters penetration plane plastic plate presented pressure problem projectile propagation properties relations response rigid rock shear shock waves shown slope solution specimen speed strain rate strength stress stress–strain curve string surface takes temperature term tests theory tube unloading variation various viscoplastic viscosity volume wave yield yield stress