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| Ïîèñê ïî óêàçàòåëÿì |
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| van der Giessen E., Wu Theodore Y.-T., Hassan A. — Advances in Applied Mechanics. Volume 38 |
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| Ïðåäìåòíûé óêàçàòåëü |
Abel’ integral equation 332
Abeyaratne, R. 38 53 88
Abraham, F.F. 100 119 141 143
Aburatani, H. 257 279
Aerial locomotion, hydrodynamic theories 296—299
Aero, E.L. 7 88
Airfoil dynamics brisk start-stop process 330
Airfoil dynamics, nonlinear lifting-surface theory 314—332
Airfoil dynamics, unsteady 325
Al-Shreef, H. 239 280
Albano, E. 299 350
Aldinger, F. 199 289
Alejandre, J. 98 124 125 127 142
Alexander, R.M. 294 350
Allen, M.P. 97 99 103 123 142
Amiiform locomotion 302
Anderson, D.M. 8 88
Angenent, S. 53 88
Anstis, G.R. 262 279
Antiplane deformation, conductive cracks 202—205
Antiplane deformation, elliptical cavity propagation under 185—186
Antiplane deformation, general solution for 166—167
Antiplane solution, fracture mechanics for mode III cracks 173—175
Antman, S.S. 7 23 78 88
Aoki, S. 68 88 159 283
Aquatic locomotion, classical slender-body theory 301—311
Aquatic locomotion, energetics, scale effects in 338—347
Aquatic locomotion, generalized slender-body theory 311—314
Aquatic locomotion, hydrodynamic theories 296—299
Aquatic locomotion, nonlinear lifting-surface theory 314—332
Aquatic locomotion, resistive theory 300—301
Arbitrary loading, planar cracks under 231—236
Arlt, G. 239 240 242 243 246 256 280 282 285 286
Ashley, H. 325 350
Aspect-ratio, lifting surface 295
Aspect-ratio, small and large 297
Asymmetric loading, ellipsoidal cavity under 229—231
Atkinson, C. 68 88
Atluri, S.N. 209 211 212 213 214 280
Augusti, G. 8 87 88 92
Axisymmetric loading, ellipsoidal cavity under 225—228
Azuma, A. 296 350
Bahr, H.A. 268 282
Baidakov, V.G. 118 142
Bakker, A.F. 106 110 134 144 145
Balance in presence of discontinuity surfaces 33—38
Balance of interactions at crack tip 56—57
Balance of interactions from invariance of outer power 16—21
Balker, H. 268 282
Banavar, J.R. 120 135 138 143 145 146
Bannasch, R. 338 350
Barber, B.P. 139 142
Barnett, D.M. 162 164 165 166 171 179 183 186 209 211 212 214 249 254 280 282 284 287
Barnett, R.N. 133 144
Bash, P.A. 103 142
Batra, R.C. 32 88
Bau, H.H. 135 143
Beale, P.D. 256 281
Bellur, K.R. 239 280
Bemardini, D. 8 75 92
Ben-Zion, Y. 167 286
Bending strength, electric field effect 247—249
Bending strength, PZT ceramics 265—267
Bending strength, temperature effect 245—247
Benjamin, I. 127 142
Beom, H.G. 209 211 212 213 214 280
Berglund, K. 32 88
Bernoulli equation 304 321
Binz, E. 8 88
Biofluiddynamics, International Conference 315
Biofluiddynamics, viscous drag and 339
Biscari, P. 7 78 81 89
Blake, J.R. 293 350
Blake, R. 302 351
Body-fin movement, in slender-body theory 302—305 311—314
Bofill 79 88
Bogy, D.B. 119 142
Boiling, explosive 136—137
Boltachev, G.Sh. 118 142
Boundary conditions, body-fin movement 304—305
Boundary conditions, classic MD simulation 100—101
Boundary conditions, electric potential 203
Boundary conditions, electric, on electrically insulating crack faces 175—178
Boundary conditions, kinematic 322
Boundary element method 276
Boundary layer, leading-edge separation 298
Boundary layer, microcracked solids 14
Boundary layer, viscous 297
Boundary surface variables 319
Brennen, C. 293 294 296 351 352
Brenner, H., Ill 128 142
Brett, J.R. 340 343 344 345 346 350
Brevik, I. 139 143
Brodskaya, E.N. 113 145
Brokaw, C.J. 294 296 352
Brooks, B.R. 123 146
Bruin, C. 106 110 118 134 143 144
Bubbles, MD simulation 118—119
Bubbles, sonoluminescence 139—140
Bubbles, spreading wetting 138
Buff, F.P. 106 143
Bulk liquid, vapor film in 112—113
Bulk vapor, liquid film in 104—112
Bulk, configurational forces in 43—46
Bulk, constitutive restrictions in 39—40
Burgers, J.M. 297 350
Bykov, T.V. 118 142
Cao, H. 258 280
Capillary phenomenon, nanoscale tube 138—139
Capriz, G. 7 8 9 10 14 23 24 25 26 38 42 68 72 73 78 79 81 88 89 92
Carey, V.P. 112 137 142
Carl, K. 258 280
Carmer, C.S. 103 142
Cauchy kernel 327
Cauchy stress 16 37—38 69 80
Cauchy’s Theorem 14
Caudal fin section leading edges 313—314
Caudal fin section, interaction with vortex sheet 310—311
Cavity propagation, energy release rates for 183—186
Cavity, electric field within 172—173
Cavity, ellipsoidal, under remote loading 223—231
Cavity, elliptical cylinder see “Elliptical cylinder cavity”
Cavity, shrunken to crack 204 208 226
Chan, K.H. 239 280
Chang, K.H. 112 143
Chang, T.M. 103 142
Chantikul, P. 262 279
Chantry, R.A.R. 116 118 145
Chapela, G.A. 110 142
Chatelain, A. 138 145
Chen, B. 221 234 235 281
Chen, L.J. 110 142
Chen, T. 235 280
Chen, W.Q. 220 231 234 235 239 280
Chen, X. 239 256 280
Chen, Z.T. 209 280
Cheng, H.K. 298 350 351
Cherepanov, G.P. 156 234 280
Chopra, M.G. 298 350
Chou, F.C. 96 142
Chou, S.Y. 136 137 142
Chuck, L. 255 281
Chung, M.Y. 162 175 186 199 280
Chwang, A.T. 293 349 350
Ciliary locomotion 293—294
Ciliary locomotion, stokeslets and 335—336
Ciliary locomotion, zero net force 336—337
Clap-fling operation, wasp wings 294
Clarke, D.B. 139 144
Cleveland, C.L. 133 144
| Coleman, B.D. 25 42 89
Colli, P. 8 76 89
Collier, L. 199 240 258 267 273 284
Comninou, M. 219 280
Compact tension specimens, fracture resistance curves and 264
Compact tension specimens, poled PZT—4 ceramics 268—269
Compact tension specimens, prenotched 258—259
Compliance, dependence on temperature 243—245
Compliance, volume elastic 247—248
Computation of nonlinear lifting-surface theory, generalized Wagner-von Karman — Sears method 325—331
Computation of nonlinear lifting-surface theory, hybrid analytical-numerical method 331—333
Computation of nonlinear lifting-surface theory, time-marching method 324—325
Condensation, and evaporation: coefficients 112
Conductive cracks and conductive inclusions 218—219
Conductive cracks, antiplane deformation 202—205
Conductive cracks, electric fracture toughness 199
Conductive cracks, experimental observations 267—270
Conductive cracks, interaction with piezoelectric dislocation 205—209
Conductive cracks, J integral 271
Conductive cracks, uniform remote loading 200—202
Configurational forces in the bulk 43—46
Configurational forces on discontinuity surface 46—53
Configurational forces, tip balance of 59—61 64
Configurations, bodies lacking in discontinuity surfaces 9—11
Connection, recognizability 4—5
Constitutive equations, isothermal linear 156—157
Constitutive restrictions, multifield theories 38—42
Contact line region 138—139
Contact zone model, interface cracks 219—220
Cook, R.F. 255 256 280
Cosserat and Cosserat’s theory 6—7
Cosserat continua 76—78
Cosserat, E. 6 7 89
Cosserat, F. 6 7 89
Cowin, S.C. 7 75 89 91 92
Crack face, electrically insulating 175—178
Crack face, loading, finite interface crack under 216—217
Crack face, loading, semi-infinite crack with 215
Crack propagation in materials with substructure 53—68
Crack propagation, energy release rates for 159—160 183—186
Crack tip, balance of interactions at 56—57
Crack tip, configurational forces, balance 59—61
Crack tip, driving force at 63—65
Crack tip, electrically insulating 249—254
Crack tip, intensity factors at 232 233
Crack tip, near 180
Crack tip, near intensity factors 182
Crack tip, velocity fields 55—56
Cracks, conductive see “Conductive cracks”
Cracks, general, electrically impermeable 197—198
Cracks, general, electrically permeable 195—196
Cracks, impermeable planar, unarbitrary loading 231—235
Cracks, interface see “Interface cracks”
Cracks, mode III, electrically impermeable 196—197
Cracks, mode III, electrically permeable 194—195
Cracks, mode III, fracture mechanics 173—175
Cracks, mode III, mechanical and electrical fields 180—183
Cracks, permeable planar, unarbitrary loading 236
Cracks, piezoelectric materials containing 155—156 158—160
Cracks, planar moving, kinematics 54—56
Critical film thickness, MD simulation 111
Cross, L.E. 242 257 283
Crum, L.A. 139 142
Cruse, T.A. 231 276 281
Cuchiaro, J.D. 256 281
Curie temperature 81
Curtin, W.A. 68 89
Cylindrical interfaces, density profile and surface tension 121—122
Cylindrical interfaces, liquid-solid interfaces 135—136
Cylindrical interfaces, MD simulation 119—122
Cylindrical interfaces, stable 121
Daiguji, H. 103 142
Damping, triggering of 244—245
Dang, L.X. 103 142
Dascaiu, C. 275 281
Davi, F. 23 83 89
Davini, C. 7 89
de Heer, W.A. 138 145
de Leon, M. 7 8 88 90
Decay, elastic energy, substructure effect 30—32
Dederichs, H. 242 280 282
Deeg, W.F.J. 176 186 281
Defects, crystalline: piezoelectric dislocation 186—199
Defects, diffusion process of 133—134
Defects, evolution in materials with substructure 42—53
Deformation, antiplane conductive cracks 202—205
Deformation, antiplane, elliptical cavity propagation under 185—186
Deformation, antiplane, general solution for 166—167
Deformation, microcracks 83—87
Degiovanni, M. 14 89
Degree of orientation, nematic liquid crystals 80—81
Del Piero, G. 8 9 89
Deng, W. 186 209 218 219 281 285
Density profile, droplets 114—115
Density profile, liquid film in bulk vapor 104—105
Density profile, liquid jet 121
Density profile, planar interfaces, liquid-liquid 124
Density profile, planar interfaces, liquid-solid 134
Desai, R.C. 119 143
DeSilva, C.N. 7 89 90
Desu, S.B. 256 281
Dhaliwal, R.S. 7 8 75 90 93
Di Carlo, A. 25 90
Diaconita, V. 8 75 90
Diaz-Herrera, E. 98 124 125 127 142
Diffeomorphism 19
Dimos, D. 256 288
Ding, H.J. 220 221 234 235 275 280 281
Discontinuity surfaces see also “Interfaces”
Discontinuity surfaces without and with own structure 35—38
Discontinuity surfaces, balance in presence of 33—38
Discontinuity surfaces, configurational forces on 46—53
Discontinuity surfaces, constitutive restrictions at 40—42
Domain switching, mechanics treatment 277
Domain switching, piezoelectric ceramics 239—242
Domain wall kinetics model, bending strength, electric field effect 247—249
Domain wall kinetics model, bending strength, temperature effect 245—247
Domain wall kinetics model, piezoelectric ceramics 242—249
Domain wall kinetics model, temperature-dependent compliance 243—245
Domain wall kinetics model, use of critical stress criterion 273—274
Doukhan, J.C. 186 281
Drag and thrust, in fish locomotion 333—338
Drag, viscous, scaling of 344—347
Drescher, J. 268 282
Driving force, at crack tip 63—65
Droplets containing solid core 137—138
Droplets formation and dynamics 114
Droplets formation in liquids 128
Droplets, density profile 114—115
Droplets, MD simulation 113—118
Droplets, pressure tensor 115—116
Droplets, surface tension 116—118
Du, S.Y. 186 275 284 287
Dugdale, D.S. 249 281
Duiker, H.M. 256 281
Dunn, J.E. 73 90
Dunn, M.L. 178 220 281
Edwards, D.A. 111 128 142
Elastic materials with substructure 26—32
Elastic materials, linear, with voids 74—75
Electric displacement at upper and lower crack faces 176—177
Electric displacement, intensity factor 213—214 233—234 252—253
Electric displacement, intensity factor, crack tip 181—182
Electric displacement, pseudoisothermal 157—158
Electric field, effect on, bending strength 247—249
Electric field, effect on, fracture of piezoelectric ceramics 256—264
Electric field, inside cavity 172—173
Electric strip saturation model 272
Electrical enthalpy, piezoelectric materials 153
Electrostatic problems, 2-D, piezoelectric ceramics 162—186
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