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Mason W.P., Thurston R.N. — Physical acoustics: principles and methods (volume XVII)
Mason W.P., Thurston R.N. — Physical acoustics: principles and methods (volume XVII)

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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.
The chapters are liberally illustrated with pictures of actual commercial objects which have been or are in use. Included are Medical Ultrasonic Diagnostics, Nondestructive Testing (NDT), Acoustic Emission, Process Control, Surface Acoustic Wave (SAW) Devices, Frequency Control Devices, Research Instruments, Transducers, and Ultrasonic Microscopes. Also contained in the text are six essays covering technology transfer and commercialization


Язык: en

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1984

Количество страниц: 326

Добавлена в каталог: 27.11.2005

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
Abramowitz, M.      254 309
Acoustic transducers, properties of      104
Acousto-elasto-plastic birefringence, equation of      101
Acoustoelastic birefringence, definition of      77—80
Acoustoelastic birefringence, formulas for      79
Acoustoelastic birefringence, theory of      71—84
Acoustoelastic birefringence, theory of, applied and residual stresses      82—84
Acoustoelastic birefringence, theory of, homogeneous predeformation      71—73
Acoustoelastic birefringence, theory of, plane waves      73—77
Acoustoelastic birefringence, ultrasonic measurement of      109—115
Acoustoelastic phenomenon, photoelastic phenomenon compared to      110
Acoustoelastic theory for residual stresses      100—101
Acoustoelasticity, equations of      69—71
Acoustoelasticity, experimental techniques for      101—109
Acoustoelasticity, experimental techniques for, competing effects on      102—104
Acoustoelasticity, experimental techniques for, ultrasonic methods      104—109
Acoustoelasticity, inhomogeneity effects on      99—100
Acoustoelasticity, residual stress measurements of      61—143
Air, absorption data on, laboratory results      190—219
Aircraft, air-to-ground sound propagation data for      208 219
Aki, K.      99 140
Alers, G.A.      3 29 30 50 60
Alkali halides, TOE constants for      3 37—40
Allen, D.L.      64 110 134 740
Alrutz, H.      235 245 249 252 309
Aluminum alloys, acoustoelastic measurements on      115 121
Aluminum, acoustoelastic measurements on      102 109 111 112 113 115 116 120 122—123 125 126
Aluminum, acoustoelastic measurements on, shrink-fit disks      128
Aluminum, stress-induced velocity studies on      62
Aluminum, TOE constants for      3
Amme, R.C.      147 162 225
Anderson, O.L.      103 140
Andreatch, P.      3 21 32 33 35 37 50 59 63 105 142
Arnold, R.T.      4 38 44 45 46 57 57 59
Atmospheric sound absorption      145—232
Atmospheric sound absorption, absorption-loss coefficients, experimental and predicted values      192—208
Atmospheric sound absorption, classical theory of      151—153
Atmospheric sound absorption, experimental data on      174—224
Atmospheric sound absorption, experimental data on, comparison      189 220
Atmospheric sound absorption, historical aspects of      146—147
Atmospheric sound absorption, prediction model, comparison with other methods      220 224
Atmospheric sound absorption, relaxation parameters on      174—189
Atmospheric sound absorption, rotational relaxational type      153—157
Atmospheric sound absorption, theory of      147—173
Atmospheric sound absorption, total      171—173
Atmospheric sound absorption, vibrational relaxation type      157—171
Bains, J.A., Jr.      4 20 22 32 34 50 57
Baltes, H.P.      270 284 309
Barnett, D.M.      116 123 126 127 142
Bars of extrusion, residual stress measurement in      126—128
Bass, H.E.      146 147 154 156 157 162 164 166 167 174 176 178 179 180 183 184 185 187 189 190 191 204 205 208 220 228 229 230 231
Bateman, T.      3 58 59
Bauer, H.J.      147 150 154 155 157 162 164 166 167 176 178 185 187 228 229
Bazley, E.N.      146 181 183 184 185 189 191 205 229
Beattie, A.G.      3 44 45 50 58
Beckmann, P.      287 289 309
Bell, R.O.      45 58
Bennet, S.D.      119 140
Benson, R.W.      62 102 121 140 185 189 209 210 229
Berendt, R.V.      242 274 309
Bergman, R.M.      62 102 140
Bernstein, B.      3 60 62 72 77 82 143
Beyer, R.T.      11 59
Bhatia, A.B.      147 149 154 229
Bienenstock, A.      56 58
Birch theory of TOE constants for cubic crystals      2
Birch, F.      2 58
Birch, J.A.      48 60
Bird, R.B.      151 155 230
Birefringence, texture- and stress-induced      133—137
Bishop, D.E.      211 229
Blackburn, B.D.      40 56 58
Blackstock, D.T.      11 58
Blessing, G.V.      128 142
Blinka, J.      63 108 110 113 740
Blume, R.J.      106 141
Bntton, W.G.B.      120 143
Bogardus, E.H.      3 33 37 46 47 58
Bolef, D.I.      38 59
Boltzmann equation      147
Borgnis, F.E.      5 58
Born — Huang method, for determination of elastic constants in lattice dynamics      51
Born, M.      51 55
Boudart, M.      183 232
Bradfield, G.      134 141
Bray, D.E.      110 112 134 141
Breazeale, M.A.      4 10 11 12 13 17 18 19 22 29 30 31 32 33 34 35 36 37 40 41 44 46 47 48 49 50 51 52 53 54 55 56 57 57 58 59 60 105 141
Bross, H.      37 58
Brugger s definition of TOE constants      9
Brugger's thermodynamic definition of nth-order elastic constant      2
Brugger, K.      2 3 28 55 56 58 60 62 73 82 143
Bry, J      185 230
Buck, O.      3 60 110 120 141 142
Burkhard, M.D.      185 209 210 229 231
Burks, J.A.      162 231
Cantrell, J.H., Jr.      4 30 31 47 48 49 58 60 105 141
Capacitive receiver for room-temperature measurements      13—15 18 20
Capacitive receiver for room-temperature measurements, block diagram for      19
Capacitive receiver, assembly      13 14
Capacitive receiver, calibration of      15—17
Capacitive receiver, equivalent circuit of      15
Capacitive receiver, measurement techniques for      18—27
Capacitive receiver, results using for some solids      27—50
Capacitive receiver, sample preparation for      18
Capacitive receiver, use in absolute amplitude-measurements      12—18
Capacitive receiver, variable-gap type, IV      18
Capacitive receiver, velocity measurements by      21—22
Carbon dioxide, role in atmospheric sound absorption      146
Carnere, G.      185 230
Carr, R.H.      55 58
Cauchy relations for SOE constants      27 28
Cauchy relations for TOE constants      28
Cauchy stress components      67 68 93
Cedrane, N.P.      105 141
Cesium fluoroperovskites, TOE constants of      40—43
Chadwick, P.      95 141
Chang, D.      185 187 189 211 229
Chang, Z.P.      3 37 38 39 40 58
Chapman, J.R.      88 118 119 142
Chern, E.J.      106 141
Chick, B.      92 102 105 120 121 141 143
Chung, D.H.      105 141
Clark, A.V      116 117 141
Coakley, R.      185 230
Coles, G.M.      210 229
Collins, J.G.      55 58
Computer, use in statistical analysis of random sound fields      235
Computer-aided tomography (CAT), use in ultrasonic signal processing      119
Continuous-wave (CW) method for ultrasonic wave speeds      63 105
Cook, R.K.      242 274 309
Cooper, W.H.B.      64 110 134 140
Copeland, W.      210 231
Copper, acoustoelastic measurements on      112 113
Copper, SOE constants of      4
Copper, stress-induced velocity studies on      62
Copper, TOE constants for      3 29—32
Copper-zinc compound, TOE constants for      3
Cottrell, T.L.      147 149 150 154 155 229
Cousins, C.S.G.      27 58
Crecraft, D.I.      62 64 110 115 122 141
Cryogenic measurements of TOE constants      22—27
Cryogenic measurements of TOE constants, block diagram of setup      26
Cubic crystals, harmonic generation of longitudinal waves in      5—12
Cubic crystals, theory of third-order elastic constants of      2
Cubic crystals, wave propagation along pure mode directions in      9—11
Curan, D.R.      105 141
Curtis, G.J.      119 141
Curtiss, C.F.      151 155 230
Dalton's law of partial pressures      171
Damming, P.      271 305 309
Daniels, W.B.      29 30 55 55
Davenport, W.B., Jr.      235 238 309
Delsasso, L.P.      176 178 179 183 184 185 189 191 205 229
Deresiewicz, H.      94 141
Diamond-like solids, Keating's model for lattice dynamics of      51
Diestel, H.G.      234 309
Direct-pulse-internal measurement for ultrasonic wave speeds      63
Displacements in prestressed bodies      66—69
Double-pulse-superposition method for ultrasonic wave speeds      105
Drabble, J.R.      3 33 37 38 39 40 50 58
Duff, A.W.      146 229
Dunham, R.W.      4 46 47 55
Ebeling, K.J.      235 242 243 245 247 249 251 252 254 277 280 304 305 309 310
Edelman, R.D.      242 274 309
Egle, D.M.      110 112 128 134 141
Ehon, H.A.      102 141
Einspruck, N.G.      3 55
Elastic waves, equations of motion for      5—8
Elasticity, linear theory of      65
Elbaum, C.      92 102 105 120 121 141 143
Enngen, A.C.      64 88 141
Eucken expression      152
Evans, L.B.      146 147 156 157 164 166 167 174 176 179 181 183 184 185 187 189 191 205 225 229
Fendley, J.      50 55
Firestone, F.A.      102 141
Fischer, M.      40 57 55 60
Flavin, J.N.      95 141
Fluoroperovskites, TOE constants of      40—50
Ford, J.      4 5 8 10 11 12 38 55 59
Forney, D.M.      110 141
Fortunko, C.      63 64 134 135 136 137 142
Fourier law of heat conduction      94
Fourth-order elastic (FOE) constants, measurement of      4
Frederick, J.R.      102 141
Freudenstein, K.      235 242 245 247 249 251 252 277 280 309
Fritz, T.C.      55 56 55
Frost, H.      104 141
Fukuoka, H.      87 88 89 96 112 113 119 120 121 125 126 128 130 131 132 133 141 142 143
Gamer, U.      63 69 141 143
Gauster, W.B.      4 13 18 29 30 44 55
Gedroits, A.A.      4 55 120 141
Geist, J.      270 284 309
Gerhart, G.R.      118 141
Germanium, Gruneisen parameter and thermal expansion of      54—56
Germanium, SOE constants for      4
Germanium, TOE constants for      3 32—37
Germanium, TOE constants for, temperature variation      50—56
Gerry, E.T.      162 231
Gesland, Y.      40 55 60
Ghate, P.B.      37 55 59
Gibbons, D.F.      55 55
Gluyas, M.      3 33 37 38 39 40 55
Goebbels, K.      130 143
Goff, J.A.      168 229
Goldberg, Z.A.      5 55
Golomb      298 309
Goodier, J.N.      93 143
Goodman, J.W.      235 287 289 295 304 309
Grace, O.D.      241 309
Gradyshteyn, I.S.      256 260 265 309
Graeh, N.      116 123 126 127 142
Graham, R.A.      4 55
Granato, A.V.      3 28 29 30 32 59
Gray, D.E.      165 168 169 180 229
Green, A.E.      82 95 98 141
Green, H.S.      237 309
Green, R.E., Jr.      9 10 59 62 103 122 141 143
Greenspan, M.J.      154 156 174 175 229
Griffin, W.A.      163 180 185 187 189 232
Gruneisen parameter, temperature dependence of      50 51
Guicking, D.      252 310
Hall, J.J.      35 37 59
Hams, C.M.      146 176 178 179 180 181 183 184 185 186 187 189 191 205 220 221 229 230
Harrington, T.P.      119 141
Hayes, M.      87 88 118 141
Hearmon,R.F.S.      3 50 51 59 62 74 747
Heller, D.F.      162 230
Helmholtz equation      236 244 267 281
Henderson, M.C.      162 166 176 178 183 185 230
Herrmann, G.      116 123 126 127 142
Herzfeld, K.F.      147 149 154 155 166 167 183 185 230 237
Heyman, J.S.      105 106 141
Hikata, A.      120 141
Hiki, Y.      3 28 29 30 32 59
Hildebrand, B.P.      119 747
Hirao, M.      87 88 89 119 120 121 141
Hirschfelder, J.O.      151 155 230
Holbrook, R.J.      62 105 141
Holman, J.P.      165 230
Holmes, R.      176 178 230
Holt, A.C.      4 5 8 10 38 59
Hon, K.      87 88 89 119 747
Hooke's law      97
Hooke's law, stiffness coefficient of      70
Hottman, S.D.      167 187 228
Hsu, N.N.      104 110 111 115 116 128 742 743
Hu, C.P.      134 742
Huang, K.      51 58
Hughes, D.S.      3 59 62 82 109 110 742
Hunter, J.B.      116 123 126 127 742
Huntington, H.B.      4 46 47 58
Husson, D.      119 740
Hyperelasticity, as restricted behavior      69
Ihc, D.B.      63 106 107 116 123 126 127 742
Imanishi, E.      78 742
Ingard, K.U.      236 237 309
Ionic solids, TOE constants for      37 40
Iron, acoustoelastic measurements on      18
Iron, wave propagation in      3
Iwashimizu, Y.      63 78 88 95 99 742 743
Jackson, J.D.      274 309
Jacobian matrix, definition of      5—6
Jakeman, E.      260 265 304 309
James, M.R.      110 742
Jassby, K.      109 119 742 743
Jetzt, J.J.      235 309
Johnson, G.C.      83 98 116 123 126 127 742
Jones, G.L.      4 59 120 742
Joshi, S.K.      55 60
Julhard, J.      40 60
Karplus, H.B.      185 189 209 210 229
Keating model for lattice dynamics of diamond-like solids      51 53
Keating, P.N.      32 33 35 37 51 52 53 59
Keck, W.      11 59
Keeton, R.G.      147 156 225
Kelly, F.      38 59
Kelly, J.L.      3 59 62 82 109 110 742
King, R.      63 64 116 123 126 127 134 135 136 137 742
Kino, G.S.      63 106 107 116 119 123 126 127 740 742
Kirchhoff stress tensor      67 93 98
Kishoni, D.      109 742
Kloos, K.H.      90 91 92 742
Kneser, H.O.      146 181 182 230
Knotzel, H.      176 178 181 183 184 230
Knudsen, V.O.      146 176 178 179 183 184 185 189 191 205 230
Kobayashi theory of acoustobirefnngence      101
Kobayashi, M.      83 98 101 742
Kobett, D.R.      4 59 120 742
Kobon, O.      88 742
Kohwad, K.M.      37 59
Krasilmkov, V.A.      4 58 120 747
Krasilnikov, O.M.      37 59
Kronecker delta      6
Kubomura, K.      63 742
Kuttruff, H.      234 235 273 281 283 309
Lagrange equations of motion      6 10
Lagrangian strain matrix definition of      5
Lamb, J.      105 743
Lambert diffusor      289 295 300 307
Lambert's cosine law      236 291
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