Asay J.R., Shahinpoor M. — High-pressure shock compression of solids :: Электронная библиотека попечительского совета мехмата МГУ

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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 solids

Авторы: 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;
and the second wave, called a plastic shock wave, travels at a slower speed.

Язык:

Рубрика: Технология/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1993

Количество страниц: 393

Добавлена в каталог: 16.10.2005

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

Resolved shear stress      188 189
Rhode, B.M.      235
Rice, M.H.      1 3 8 43 105
Ringwood, A.E.      75
Rivier, N.      301 311 312
Roddy, D.J.      76
Rogers, H.C.      80 289
Rohde, R.W.      223
Rollett, A.D.      189
Romanchenko, V.I.      274 276 277
Rose, J.H.      268
Rosenberg, Z.      45 105
Rosin, P.      295
Rostoker, N.      223
Rotation of frame, isotropy      134
Ruoff, A.L.      80 82
Ruppin, R.      296
Sattler, M.L.      189
Sawaoka, A.      45
Schiferl, S.K.      247 248
Schmidt, S.C.      45 78 187 188
Schuhmann, R.      267 295
Schuler, K.W.      57
Schultz, P.      76
Screw dislocations      229
Seaman, L.      43 45 265 267 313
Second phases      188 189
Second principal moment of the stress deviator      164
Second-order tensor function      120
Seitz, F.      1 7 45
Selected area diffraction pattern      191
Self-heating      226
Setchell, R.E.      59
Shahinpoor, M.      43 48 49 53
Shaner, J.      44
Sharma, S.M.      249
Sharp, J.V.      189
Sharpton, V.L.      76
Shear bands      221
Shear waves      61
Shear-wave velocity interferometer      61
Shewmon, P.G.      1 7 188
Shock amplitude      235 236
Shock hardening      191 235
Shock Heating      193
Shock history      192
Shock luminescence      55
Shock strengthening      189 190
Shock temperature      102
Shock velocity      79
Shock-compression science      43 44
Shock-deformed single and polycrystalline nickel      188 189
Shock-induced phase transition      96
Shock-loaded copper      196 197 198
Shock-recovery assembly for brittle materials      200 201
Shock-recovery experiments      187 192
Shock-recovery fixture      187
Shock-recovery techniques      192
Shock-wave equation of state      76
Shockey, D.A.      267 279 296 313
Shvedov, K.K.      82
Sih, G.C.      265
Silver, L.T.      76
Simakov, G.V.      97 98
Simonenko, V.A.      76
Single-crystal copper      226
Sinitsyn, M.V.      45 78
Skidmore, I.C.      9
Skoog, C.      43
Small deformations      184
Sodium chloride      199 200
Soft recovery      192
Soft recovery, experiments      192
Solid-state chemical reaction      217 218
Solomon, H.      267 301
Solone, P.J.      224
Sound speed behind shock front      98
Spall      36 197 266
Spall, experiment      271
Spatial coordinates      119 157
Speranskaya, M.P.      75
Stability      120 139 156
Stacking faults in $Ni_{4}Al$       201 202
Stacking-fault energy      188 190
Stainless steel      108
Star-shaped flyer configurations      199 200
Staudhammer, K.P.      187 188
Steel      289 310
Steinberg, D.J.      206
Step-up loading      211 212 213
Stepanov, G.V.      274 276 277
Stevens, A.L.      197 265 266 312 313 314
Stoecker, H.      306
Stoffler, D.      76
Stout, M.G.      189
Strain history      160
Strain potential      164
Strain rate      168 210
Strain rate, relations      166
Strain rate, tensor      166
Strain rates      158 160 164 166 168
Strain-induced hardening and anisotropy      158 160 164 166 168
Straub, K.      43
Stress deviator      164
Stress history      158 160
Stress rate      164 166 168
Stress rate, relation      168 177
Stress space      158 168
Stress-strain response      205
Stripper cylinders      200
Stripper plates      200
Structure/property material behavior      187

Styrus, D.L.      223 247
Substructure evolution      197
Sugiura, H.      56 66
Surface nucleation      229
Susoeff, A.R.      43
Sutherland, H.J.      44
Svendsen, B.      83 105
Swain, J.E.      224
Swegle, J.W.      1 19 50 51 56 62 221 242 243 267 316
SWIFT      66
Syono, Y.      76
Tan, H.      108 109
Taylor factor      189
Taylor impact      316
Taylor, G.I.      219 220 224 230 244 267 316 317 318
Taylor, J.M.      266
Taylor, J.W.      36 37 189 217
Temperature gauges      66
Teplyakova, L.A.      188
Thadhani, N.N.      222
Theoretical spall strength      268
Thermal activation      230 231 232 234
Thermal trapping      223
Threshold shear stress      229 232
Thursby, W.R.      45
Ti-6Al-4V      191
Tilt      49 61
Timmerhaus, K.D.      44 45 48
Tinder, R.F.      219
Titanium flyer      202
Tokuda, M.      187
Tonks, D.L.      219 220 234
Touloukian, Y.S.      103
Toupin, R.A.      171
Transmission electron microscope      191 197
Transverse displacement interferometer      197
Trapp, J.A.      131
Tricot, R.      188
Trucano, T.G.      43
Truesdell's stress rate      177
Truesdell, C.      149 150 151 152 157 159 163 164 171 177 181
Trunin, R.F.      80 97 98
Tseng, M.      131
Tungsten      225
Tunison, K.S.      220
Turcotti, D.L.      311
Turnbull, D.      1 7 45
Two-stage light gas guns      47
Uniaxial shock history      192
Uniaxial strain      60
Unloading      21 118
Urlin, V.D.      45 46
Urweider, A.      108
Vacancies      192
Vacancy loops      192 193
Venturini, E.L.      222
Vickers hardness      235
VISAR      57 58 60 208
VISAR, wave profile      208 209
Viscous drag      230 231 232
Viscous drag, coefficient      231
Vladimirov, L.A.      75
Vodolaga, B.K.      76
Voloshin, N.P.      76
von Rittinger, P.R.      278
voronoi      303 304
Vorthman, J.E.      219 220 226 229
W [49]      210
Wackerle, J.      80 91
Waddington, J.S.      189 235
Wallace, D.C.      218 219 223
Walsh, J.M.      1 8 75 87 102 105
Walter, D.F.      44
Ward, P.D.      76
Wark, J.S.      249
Waste heat      37
Watt, J.P.      91
Weaire, D.      301 311 312
Weertman, J.      189
Weibull statistics      295
Weibull strength      279
Weibull, W.      279 295 313 315
Weimer, R.J.      289
Weingart, R.C.      45
Wentorf, R.H.      1 44
Whitlock, R.R.      249
Whitson, A.L.      44
Williams, E.      43
Williams, Q.      109
Williamson, D.L.      223
Wills, J.M.      222
Wilshaw, T.R.      268
Window materials      58 59
Wise, J.L.      59
Wittman, R.H.      194
Work assumption      118 120 131 156 161 167
Wright, R.N.      189 222
x-cut quartz      64
x-t diagram      22
Yakushev, V.V.      75
Yarrington, P.      323
Yaziv, D.      45
Yeshurun, Y.      267
Yield condition      118 138
Young, C.      56
Young, E.G.      218
Ytterbium      64
Zackay, V.F.      1 7 189
Zaitzev, V.M.      99
Zel'dovich, Y.B.      8 78 88
Zhuchikhin, V.I.      76
Zlatin, N.A.      267 279
Zukas, E.G.      187

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