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Asay J.R., Shahinpoor M. — High-pressure shock compression of solids
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Название: High-pressure shock compression of solidsАвторы: Asay J.R., Shahinpoor M. Аннотация: This book presents a set of basic understandings of the behavior and response of solids to propagating shock waves. The propagation of shock waves in a solid body is accompanied by large compressions, decompression, and shear. Thus, the shear strength of solids and any inelastic response due to shock-wave propagation is of the utmost importance. Furthermore, shock compression of solids is always accompanied by heating, and the rise of local temperature which may be due to both compression and dissipation. For many solids, under a certain range of impact pressures, a two-wave structure arises such that the first wave, called the elastic prescursor, travels with the speed of sound;
Язык: Рубрика: Технология /Статус предметного указателя: Готов указатель с номерами страниц ed2k: ed2k stats Год издания: 1993Количество страниц: 393Добавлена в каталог: 16.10.2005Операции: Положить на полку |
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Holland, J.R. 187 188 190 Hollenbach, R.E. 24 56 57 59 99 246 271 Holmes, N.C. 45 80 188 Holographic photography 68 Holt, A.C. 279 316 Holt, W.H. 266 Hopkins, A.K. 44 Hopkins, J.W. 79 Horie, Y. 223 Horn, P.D. 249 Hot spots 217 218 220 Hough, G.R. 68 Huang, J.C. 188 Huang, S. 190 Hugenschmidt, M. 44 Hugoniots 15 Hugonoit elastic limit 95 193 Hull, D. 220 Hypervelocity impact 44 Hypoelasticity 119 149 156 Hypoinelasticity 119 148 153 160 163 168 Iliushin, A.A. 131 Impedance 29 In-situ stress gauge 62 63 Inelastic dissipation 134 155 Inelastic evolution equation 124 154 Infinitesimal deformation 223 Influence of loading rate 211 Influence of peak shock pressure 202 203 Influence of pulse duration 205 206 Interaction potential 218 Internal state variables 118 122 142 154 157 163 Interstitial content 188 189 Invariants 181 Ioffe, B.S. 267 Iron 203 218 294 Isaacson, L. 265 Isbell, W.M. 66 Isentrope 16 22 36 37 Isotropy 144 183 Ivanov, A.G. 278 Jaeger, J.C. 313 Jaeger, Z. 265 Jaynes, E.T. 311 Jeanloz, R. 80 83 91 93 Jetting 61 Jog 192 193 Jog, formation 192 193 John, F. 33 Johnson, G.R. 266 292 312 Johnson, J.N. 169 187 217 221 223 241 244 247 249 314 Johnson, P.M. 51 56 Johnson, Q. 223 Joint moment of the stress deviator and the plastic strain deviator 136 Jones, O.E. 5 40 80 88 189 197 219 266 289 305 Jump conditions 11 Kaiser, B.B. 265 Karnes, C.H. 187 188 Kazmi, B. 189 Keeler, R.N. 223 Kennedy, J.E. 266 Keough, D.D. 44 Kerley, G.I. 44 Khan, A.S. 187 Kiang, T. 303 Kiehn, G. 224 Kim, K.S. 61 kinetic energy 283 Kinslow, R. 79 Kipp, M.E. 265 267 278 279 280 281 291 296 299 300 302 303 308 311 313 314 315 316 Kirillov, G.A. 45 46 Kocks, U.F. 221 231 233 Koller, L.R. 56 Kolmogorov, A.N. 295 Kompaneets, A.S. 78 88 Kondo, K. 45 Kormer, S.B. 66 78 106 Kovalenko, G.V. 77 Krupnikov, K.K. 77 Krypton bromide 201 202 Kumar, A. 221 229 Kumar, P. 189 Kuropatenko, V.F. 76 Lagrangian coordinates 24 Lagrangian stress gradient 225 Lagrangian time-distance diagram 194 Laharrague, P. 44 Lalle, P. 44 Lame constants 222 Large deformations 118 Laser interferometry 224 Lattice planes 218 Lawn, B.R. 268 Lead 308 Lebihan, A. 44 Ledenev, B.N. 76 Lee, L.M. 63 65 Lee, R.S. 44 Leslie, W.C. 187 Leung, C. 44 Levi, A. 265 Lienau, C.C. 295 296 297 298 308 LiF 225 226 227 228 229 230 Lin, H.C. 131 Linde, R.K. 5 7 187 189 Linfoot, E.H. 289 295 297 302 303 Lipkin, J. 281 315 Lithium-niobate 64 65 Loading 210 211 Loading, rate 210 Loading, rate effects 187 Lomdahl, P.S. 221 Longitudinal sound speed 225 Longy, F. 8 267 Lothe, J. 217 219 Low, B.B. 221 Luna, R.E. 290 Lundergan, C.D. 189 Lyzenga, G.A. 66—67 78 106 Macroscale 218 219 220 222 Macroscale, observations 217 218 Macroscale, response 229 Macroscale, state 222 Mahajan, S. 187 Mahrer, K.D. 45 Makin, M.J. 189 Manganin 64 Manghnani, M.H. 44 75 76 77 Margolin, L.G. 296 312 313 Marsh, S.P. 1 45 80 110 188 Marshall Jr, R.W. 265 Material hardness 235 Maximum resolved shear stress 223 Mayer, F.J. 43 Maynard, R.L. 48 McGlaun, J.M. 323 339 McQueen, R.G. 5 8 45 55 66 79 89 90 91 98 99 101 102 108 109 110 Mechanical threshold stress 235 Meir, G. 221 229 MELOSH, H.J. 265 Meloy, T.P. 295 296 Melt boundaries 67 Merrill, R.B. 80 Mesoscale 218 219 220 221 222 223 224 Mesoscale, variable 218 219 220 Meyer, L.W. 8 265 267 Meyers, M.A. 187 188 266 Mg-doped LiF 229 Michaels, T.E. 219 Microbands 198 Micromechanical concepts 217 218 Micromechanical constitutive models 234 Micromechanical effects 221 223 224 Micromechanical evolution 234 Micromechanical response 229 Micromechanical state 221 232 Micromechanisms 187 188 Microscale 218 219 221 222 Microscale processes 217 218 Microstructure 187 188 Mikkola, D.E. 189 221 Miles, R.E. 265 301 Miller, G.H. 75 Mineev, V.N. 278 Minimum trapping width 194 195 Minshall, S. 1 76 223 Mitchell, A.C. 79 80 223 224 MO 204 205 Mo-33 Re [39] 204 205 Moan, G.D. 189 Mobile dislocation density 189 190 220 226 229 Mock Jr, W. 310 Mogilevsky, M.A. 188 189 Molecular Dynamics 305 Molinari, A. 292 Momentum trapping 193 200 Moriarty, J.A. 79 Morosin, B. 222 Morris, C.E. 80 188 189 Morse potential 269 Morvan, J. 44 Mott statistics 295 302 Mott, N.F. 289 291 295 296 297 302 303 304 308 311 Multiple cross glide 227 228 231 232 Multiple-cross-glide mechanism 231 Murr, L.E. 76 188 189 Murri, L.E. 79 Murri, W.J. 5 8 57 64 65 76 NaCl 225 Naghdi, P.M. 121 131 139 153 157 Nellis, W.J. 43 45 80 81 Nelson, L.S. 266 Nemat-Nasser, S. 169 Nickel 218 219 Nickel, single crystals 189 Nickel-270 189 Niobium 203 204 Noll, W. 149 150 171 Normality 118 120 136 143 155 156 161 167 Novick, V.J. 267 Nucleation mechanism 229 Nucleation of dislocation 228 229 O'Keefe, J.D. 76 Objectivity 149 156 158 160 168 169 178 Oblique impact 50 OFE copper 198 199 212 233 235 OFHC copper 235 Oil shale 280 Optical fibers 59 60 61 Optical interferometry 56 Optical photography 68 Optical pyrometry 66 Orava, R.N. 194 Orowan, E. 219 220 239 268 Osher, J.E. 54 Owczarek, J.A. 11 Parker, D.R. 266 Particle velocity 9 Partom, Y. 64 105 Path-dependent effects 223 Path-dependent evolution 223 Path-dependent micromechanical effects 223 Peak pressure 187 188 Pepin, R.O. 80 Peterson, C.F. 1 80 Peterson, E.L. 1 77 223 Piezoelectric techniques 63 Piezoresistive coefficient 63 Pillow 48 211 212 Piola's stress 177 Planar dislocation arrays 203 204 Planar slip bands 197 198 Plane impact of flyer plate 84 Plastic deformational heating 223 Plastic strain rate 223 235 Plastic work 223 Plasticity 118 121 131 142 156 PMMA 211 Podurets, M.A. 81 Point defects 187 188 189 190 191 192 Poisson statistics 295 Pokhil, P.F. 82 Polanyi, M. 219 Polycrystal grain size 188 189 Polyvinylidene fluoride ( 65 Pomykal, G.W. 45 Poncelet, E.F. 278 Pope, L.E. 223 Porous materials 95 Post-mortem examinations 68 Post-mortem mechanical properties 188 189 Postshock mechanical properties 207 208 Postshock yield strength 189 190 Powder guns 47 Prager, W. 115 Precursor amplitude 228 229 Precursor decay 224 Pressure-induced-phase transition 187 Pressure-particle velocity curves 83 Pressure-shear loading 50 Principal Hugoniot 15 Pugh, E.M. 223 Pujois, H. 44 Pulse duration 187 204 Pulse duration, time 197 Pulse-duration 235 236 Pure copper 207 208 Purie, P.S. 308 Quasi-isentrope 210 211 Quasi-isentrope, loading 211 212 Quasi-static yield stress 228 229 Raabe, O.G. 266 Rabie, R. 44 Radial release 198 Radial release, effects 197 Radial release, interactions 201 Raikes, S.A. 105 Rail guns 48 49 Raizer, Y.P. 8 Rammler, E. 295 Ramp loading 211 212 213 Rankine — Hugoniot equation 11 Rarefaction 21 195 Rashid, M. 169 Rate-dependent plastic flow 224 225 Rate-dependent plasticity 217 Raybould, D. 187 Rayleigh line 15 Real-time unloading wave profiles 207 Reed, R.P. 64 Reference configuration 119 153 Reflection from a free surface 86 Regazzoni, G. 292 Regid-body rotation 143 Release 21 Relief 21 Residual deformation 114 115 Residual dislocation substructure 204 Residual strain 194 199 200 Resolved shear strain 188 189
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