Авторизация
Поиск по указателям
Mason W.P., Thurston R.N. — Physical acoustics: principles and methods (volume XVII)
Обсудите книгу на научном форуме Нашли опечатку?
Название: Physical acoustics: principles and methods (volume XVII)Авторы: Mason W.P., Thurston R.N. Аннотация: While research on ultrasonics has been covered in earlier volumes of the Physical Acoustics series, Volumes 23 and 24 demonstrate the successful commercialization of devices and instruments arising from research in this area. These volumes will assist in the process of bringing research output into the marketplace to the benefit of customers.
Язык: Рубрика: Физика /Статус предметного указателя: Готов указатель с номерами страниц ed2k: ed2k stats Год издания: 1984Количество страниц: 326Добавлена в каталог: 27.11.2005Операции: Положить на полку |
Скопировать ссылку для форума | Скопировать ID
Предметный указатель
Lame constants 85 Lance, R. 109 128 129 743 Lazarus, D. 3 29 30 37 59 Lee, P.C.Y. 82 742 Lee, S.S. 137 743 Legendre sequences 307 Leibfned. G. 28 59 Lincoln, R.C. 37 59 Linear theory of elasticity 65 Ling, C.K. 96 743 List, R.J. 168 169 230 Litovitz, T.A. 147 149 154 155 230 Love, A.E.H. 65 742 Lubman, D. 235 309 Ludwig, W. 28 59 MacDonald, D.E. 137 142 Mackey, J.E. 4 38 44 45 57 59 Macroscopic theory of higher-order elastic constants 2 MacWilliams, F.J. 300 309 Mahadevan, P. 133 142 Malvern, L.E. 97 142 Manning, R.J. 3 55 Maradudin, A.A. 38 59 Markenscoff, X. 82 142 Martin, B.G. 63 88 118 119 142 Mason, W.P. 3 55 59 Masubuchi, K. 93 142 May, J.E. 105 142 McCammon, R.D. 55 55 59 McCoubrey, J.C. 147 149 150 154 155 229 McSkunin, H.J. 3 21 32 33 35 37 50 55 59 63 105 142 Meeks, E.L. 4 44 45 46 57 57 59 Melngaihs, J. 38 59 Meredith, R.W. 163 180 185 187 189 232 Metal-oxide-semiconductor field-effect transistor (MOSFET) gate, use in capacitive receiver 20 Metals, TOE constants for 29—32 Meyer, E. 174 175 230 Microstructures, measurement of 120 Mignogna, R.B. 116 117 141 Miller, R.L. 211 230 Mitin, M.B. 174 175 230 Monk, R.G. 166 176 178 179 180 181 183 184 187 230 Moore, C.B. 162 167 230 232 Morse, P.M. 236 237 309 Motion, equations of, for prestressed body 68—69 Murnaghan formalism for elastic-solid deformations 5 Murnaghan, F.D. 2 4 5 7 59 82 142 Musgrave, M.J.P. 71 142 Naghdi, P.M. 98 141 Naka, H. 131 132 133 747 Nishiwaki, Y. 125 142 Nitrogen, relaxation frequency for 185—189 Nitrogen, role in atmospheric sound absorption 146 Noble metals, TOE constants for 3 Noronha, P.J. 88 118 119 142 Norton equivalent, for capacitive detector 16 Nouet, J. 40 60 Novikova, S.I. 55 59 Nowacki, W. 93 142 Nran'yan, A.A. 37 59 Obert, L. 176 178 230 Ohashi, Y. 125 142 Ohmon, H. 96 125 126 143 Okada, K. 80 132 134 142 143 Olson, J 147 162 225 Oncley, P.B. 211 230 Orthotropic materials birefringence formula for 63 Oxygen, relaxation frequency for 181—185 Oxygen, role in atmospheric sound absorption 146 Pao, Y.H. 63 69 141 143 Papadakis, E.P. 22 59 105 106 107 143 Papouhs, A. 235 239 246 266 309 Parbrook,H.O. 156 174 175 232 Pare, V.K. 4 17 18 31 59 60 Parker, J.G. 176 178 237 Parker, J.H., Jr. 38 59 Parkin, P.H. 210 231 Patch-welded disks, acoustoelastic measurements on 128—130 Paul, S. 37 59 Pernn, B. 40 60 Perovskite family, TOE constants of 40—50 Peters, R.D. 4 17 31 41 59 Philip, J. 4 19 35 36 37 40 41 50 51 52 53 54 55 55 59 Phonon-phonon scattering, TOE constant measurements from 3 4 Photoelastic phenomenon, acoustoelastic phenomenon compared to 110 Piercy, J.E. 146 183 237 Piola — Kirchhoff stress tensor 67 Plastic deformation, acoustoelasticity and 96—100 Plastically deformed body, three cubic elements in initial state of 138 Pohlman, W. 183 184 191 205 237 Polycrystalhne materials, residual stresses in 91 Polystyrene, wave propagation in 3 Potassium chloride, TOE constants for 3 37—40 Potassium fluoroperovskites, TOE constants of 40—43 Powell, B.E. 2 3 59 Prandtl — Reuss equation 97 98 Prestressed bodies, wave motion in 64—71 Prestressed bodies, wave motion in, equations 68—69 Proctor, T.M. 128 142 Pseudo-continuous-wave (CW) method for ultrasonic wave speeds 63 106 Pulse-echo (echo overlap) method for ultrasonic wave speeds 105 Pulse-echo (echo overlap) method for ultrasonic wave speeds, schematic for 107 Pulse-superposition technique for wave velocity measurements 21 63 Pure-tone sound fields, characterization of 236—237 Pyrex glass, wave propagation in 3 Quadt, H.P. 309 Quartz, fused, TOE constants for 3 Queen, E.J. 162 230 Raelson, V.J. 62 102 121 740 185 209 210 237 Raff, L.M. 154 237 Rail specimen, acoustoelastic measurements on 112 Random wave field statistical properties of 233—310 Random wave field statistical properties of, analytic signal and its spatial derivative 246—248 Random wave field statistical properties of, angular power spectrum m 267—274 Random wave field statistical properties of, angular power spectrum m, measurement 277—283 Random wave field statistical properties of, averaging of Laplacian distributed variables 252—254 Random wave field statistical properties of, averaging on amplitude and energy density basis 244 246 Random wave field statistical properties of, basic 237—241 Random wave field statistical properties of, behavior of two-dimensional energy density gradients 262—263 Random wave field statistical properties of, directional dependence of two-dimensional energy flux density 259—262 Random wave field statistical properties of, directional distribution of plane waves in 305—306 Random wave field statistical properties of, distribution for one component of energy flux density 248—251 Random wave field statistical properties of, distribution of two-dimensional energy flux vector 254—259 Random wave field statistical properties of, field variable statistics 303—305 Random wave field statistical properties of, probability densities of quantities containing derivatives 246—254 Random wave field statistical properties of, pure-tone sound fields 236—237 Random wave field statistical properties of, radiance connection with 283—286 Random wave field statistical properties of, spatial correlation 241—244 Random wave field statistical properties of, spatial derivative of potential energy density and level crossings 251—253 Random wave field statistical properties of, spatial diffusivity measurements in 274—277 Random wave field statistical properties of, spatial irequency spectrum and 265—286 Random wave field statistical properties of, three-dimensional energy flux densities 263—265 Random wave field statistical properties of, two- and three-dimensional gradients 254—265 Random wave field statistical properties of, wave scattering at rough surfaces 287—303 306—307 Random wave fields, spatial frequency spectrum of 265—286 Ratchffe, B.J. 105 109 143 Rayleigh waves, speed of, in unstressed medium 87 Rayleigh waves, stress measurements using 118 Reddy, P.J. 50 60 Relaxation parameters for prediction of atmospheric sound absorption 174—189 Relaxation parameters for prediction of atmospheric sound absorption, relaxation frequencies 180—189 Residual stresses, acoustoelastic theory for 100—101 Residual stresses, ultrasonic measurement of 89—93 121—140 Rice, S.O. 252 254 304 309 Richards, P. 99 140 Rivlin, R.S. 82 87 88 118 141 Robinson, D.W. 210 237 Roesler, H. 162 176 178 185 225 Rollins, F.R., Jr. 4 59 60 120 143 Rollwage, M. 249 251 252 309 310 Root, W.L. 235 238 309 Rosser, W.A. 162 231 Rotational relaxation absorption by sound in the atmosphere 153—157 Rough surfaces, random wave scattering on 287—303 306—307 Rousseau, M. 40 60 Rupprecht, G. 45 58 Ryzhik, I.M. 256 260 265 309 Sabine, H.J. 185 209 210 229 231 Sachse, W. 63 104 108 109 110 113 122 128 129 134 140 142 143 Saito, M. 63 143 Salama, K. 3 29 30 50 60 96 143 Saleh, B. 239 242 254 310 Samara, G.A. 44 45 58 Sanford, R.J. 116 111 141 Santosa, F. 99 143 Sarma, V.P.N. 50 60 Sasabe, M. 78 142 Sayers, C.M. 64 110 134 140 Schirber, J.E. 3 50 58 Schneider, E. 130 143 Scholes, W.E. 210 231 Schroeder's large-room frequency 239 Schroeder, M.R. 234 235 239 252 263 271 298 301 304 307 370 Schwartz, R.N. 167 231 Scott, M.P. 116 123 126 127 142 Second-order elastic (SOE) constants of diamond-like solids 51 Second-order elastic (SOE) constants, Cauchy relations for 27 28 Second-order elastic (SOE) constants, measurement of 4 Seeger, A. 3 38 59 60 Selfndge, A.R. 63 106 107 116 142 Sessler, G. 174 175 230 Shahbender, R.A. 62 102 140 Sharma, K.C. 55 60 Sheard, F.W. 55 60 Shield, R.T. 82 141 Shields, F.D. 147 157 162 164 167 176 178 179 180 181 183 184 185 187 189 190 191 204 205 208 220 228 229 231 Shrink-fit disk, acoustoelasticity measurements using 128 Shyne, J.C. 116 123 126 127 142 Silica, fused, TOE constants of 46—50 Silica, SOE constants of 4 Silicon, Gruneisen parameter and thermal expansion of 54—56 Silicon, SOE constants of 4 Silicon, TOE constants for 3 32—37 Silicon, TOE constants for, temperature variation 50—56 Silk, M.A. 64 110 134 140 Silver, TOE constants for 3 Silversmith, D. 105 141 Simpson, M.A. 211 229 Sing-around method for stress-induced velocity measurements 62 105 112 Sivian, L.J. 176 179 191 231 Skove, M.J. 2 3 59 Slawsky, Z.I. 167 231 Sloane, N.J.A. 300 309 Smith, C.M. 189 211 237 Smith, C.S. 29 30 58 Smith, F.A. 176 178 230 Smith, G.D. 95 141 Smith, J.F. 137 743 Smith, R.T. 109 113 115 743 Sodium chloride, TOE constants for 3 37—40 Sound aircraft propagation of, air-to-ground studies on 208—219 Sound aircraft propagation of, atmospheric absorption of 145—232 Sparks, P.W. 55 60 Spizzichino, A. 287 289 309 Stanford, A.L. 38 60 Statistical properties of random wave fields 233—310 Steel, acoustoelastic measurements on 109 112 115 125 Steel, acoustoelastic measurements on, patch-welded disks 128—130 Steel, stress-induced velocity studies on 62 Steele, C.R. 116 123 126 127 142 Stegun, I.A. 254 309 Stephens, R.W.B. 113 115 120 143 Stephenson, J.C. 167 232 Stern, R. 113 115 143 Stokes, G.G. 146 232 Strains in prestressed bodies 66—69 Strathen, R.E.B. 38 39 40 58 Strelkov, P.G. 55 59 Stress fields, two-dimensional, acoustoelastic measurement of 115—117 Stresses in prestressed bodies 66—69 Strontium titanate, SOE constants of 4 Strontium titanate, TOE constants of 44—46 Suhubi, E.S. 64 88 141 Surface acoustic wave device (SAW), wave generation by 118—119 Surface layers, initial stresses in 88—89 Surface waves in a prestressed half-space 84—89 Surface waves, equations of 84—89 Surface waves, three-dimensional stress field and 118—121 Sutherland, L.C. 146 147 150 151 156 164 166 167 174 176 178 179 181 183 184 185 187 189 190 191 204 205 208 209 220 228 229 232 Swartz, K.D. 38 39 40 60 Swenson, C.A. 55 60 Szabo,T.L. 118 143 Tanner, C.A. 211 232 Taylor, L.G. 162 181 232 Taylor, L.H. 4 60 120 143 Tempest, W. 156 174 175 176 178 179 180 184 185 186 187 189 191 205 221 229 230 232 Thermoelastic effect in acoustoelasticity 93—96 Thiele, R. 234 309 Third-order elastic (TOE) constants at low temperatures 3 Third-order elastic (TOE) constants for ionic solids 37—40 Third-order elastic (TOE) constants for metals 29—32 Third-order elastic (TOE) constants for perovskites 40—50 Third-order elastic (TOE) constants for semiconductors 32—37 Third-order elastic (TOE) constants from Hooke's law deviations 3 Third-order elastic (TOE) constants from shock-wave measurements 3 Third-order elastic (TOE) constants from ultrasonic beam mixing 3 Third-order elastic (TOE) constants from ultrasonic harmonic generation constants 1—60 Third-order elastic (TOE) constants of diamond-like solids 51 Third-order elastic (TOE) constants, methods for determining 3—4 Third-order elastic (TOE) constants, nonlinear behavior and 2 Thomas, J.F., Jr. 32 59 Thompson, D.O. 4 18 58 60 Thompson, M.C. 242 274 309 Thompson, R.B. 137 143 Three-dimensional stress field, surface waves and 118—121 Thurston, R.N. 3 28 60 62 73 77 82 143 Time intervalometer acoustoelasticity measurements 109 Timoshenko, S.P. 93 143 Ting, T.C.T. 98 143 Toda, H. 96 112 113 125 126 128 130 131 132 133 141 142 143 Todd, P.H., Jr. 4 60 120 143 Tokuoko, T. 63 95 143 Tomizawa, A. 120 121 141 Toupin, R. 82 143 Toupin, R.A. 3 60 62 72 77 82 143 Trebits, R.N. 38 39 40 60 Truell, R. 92 102 105 120 121 143 Truesdell, C. 3 60 73 82 143 Tsuchida, Y. 132 143 Tuesday, C.S. 183 232 Ultrasonic harmonic generation measurements, third-order elastic constants from 1—60 Ultrasonic measurements of residual stress 61—143 Ultrasonic nonlineanty parameter, definition of 11—12 Ultrasonic waves, interaction at a stressed point 120 Ultrasonics in residual stress measurements 121—140 Ultrasonics, applied stress measurements using 109—121 Ultrasonics, processing by computer-aided tomography (CAT) 119 Ultrasonics, use in acoustoelastic measurements 104—109 Vibrational relaxation absorption by atmospheric sound 157—171 Walther, A. 270 284 309 Wang, Y.J. 120 143 Wang, Y.S. 82 142 Warf, C.C. 162 257 Water vapor, role in atmospheric sound absorption 146 Waterhouse, R.V. 234 235 242 274 309 310 Wave fields, random, statistical properties of 233—310 Wave harmonics, measurements of 120—121 Wave motion in prestressed bodies 64—71 Wave(s), in plastically deformed media, ultrasonic measurements 121—126 Wave(s), propagation, in cubic crystal 9—11
Реклама
|
|
О проекте