Graff K.F. — Wave motion in elastic solids :: Электронная библиотека попечительского совета мехмата МГУ

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Graff K.F. — Wave motion in elastic solids

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Название: Wave motion in elastic solids

Автор: Graff K.F.

Аннотация:

Comprehensive textbook for students and research workers offers self-contained coverage of a variety of topics ranging from the elementary theory of waves and vibrations in strings to the three-dimensional theory of waves in thick plates. Emphasis is on analytical and experimental results, in addition to theoretical development. Appendices contain introductory material on elasticity, transforms and experimental techniques. Over 100 problems.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1975

Количество страниц: 664

Добавлена в каталог: 12.10.2005

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Предметный указатель

Stokes, G. G      59 65 71
Stoneley, R.      380 391
Stonely wave      380
Stonely wave, gauge, to measure stress waves      83 130—1 202 204 255 565 567—9 632
Stonely wave, large      596
Stonely wave, strain      583—4
Stonely wave, tensor      274 584
Streak photography      674
Strength-of-material theories      2 121
Stress      585
Stress, concentration, dynamic      394
Stress, multiplication, from reflection      80—1
Stress, reversal, from reflection      81—2
Stress, tensor      274 585 588
Stress, waves, experimental methods      629—34
Stress-optic law      384 633
String      65—8
String on viscous subgrade      68—71
String, basic governing equation for      9—10
String, dispersion in      51—8
String, waves and vibrations in      9—74
Structures, use of wave propagation in      3
Summation convention      582
Sun, C. T      303 309
Superposition solution      (see Normal mode solution)
Surface waves in      324
SV waves in half-space      319—21
Symmetric, displacements in plate      437
Symmetric, in plate theory      438—41 445—6 458-9 500
Symmetric, Lam      6
Symmetric, modes      462—3
Symmetric, of Rayleigh — Lamb spectrum      453
Tables of      621—6
Tables of transforms      621—6
Tail of response      219—20
Tangential load on half-space      354 371—2
Tatel, H. E      384 391
Thau, S. A.      385 386 391 408 427 429 430
Thermal effects      595
Thickness-shear mode in plate      449 454 493—4
Thickness-stretch mode in plate      449 454 508—9
Thin, rod, flexural waves in      140—212
Thin, shells      258—70
Thin-plate velocity      264 267
Thin-rod velocity      78
Thomas, D. P.      410 430
Thomas, G. B.      270
Time Piece      81—2 137
Timoshenko frequency equation      185—6
Timoshenko, beam theory      180—95 205-7
Timoshenko, S. P.      87 104 105 106 123 126 136 169 181 210 234 271 481 579
Timoshenko, shear coefficient      183 186
Todhunter, I.      104 136
Tolstoy, I.      457 579
Tong, K. N      42 72
Topology of saddle point      338
Torsional in membrane shell      263
Torsional in rods      125—7 468—70
Torsional, bending motion      127
Torsional, load on half-space      371—2
Torsional, rigidity      126—7
Torsional, waves from cylindrical cavity      305
Torvik, J.      536 579
Tractions      279—80 585
Transforms, integral      603—28
Transient, loading on half-space      356—75
Transient, waves in rods and plates      543—61
Translation theorem      608
Transmission at discontinuity      83—4 137
Trenches for screening waves      387—8
Truell, R.      408 428 430
Types of waves      2
Ultrasonics as use of stress waves      4
Ultrasonics, uniqueness of solutions      491 513 592—4
Ultrasonics, use in curved boundaries      387
Ultrasonics, use in wave reflection      389
Ultrasonics, use in wedges      387
Ultrasonics, use of horns      114
Ultrasonics, use of resonance in      88
Usdin, E      457 579
Vector, operations      583
Vector, potential      275
Velocities of dilatational and rotational waves      276—9

Velocity of surface wave      326
Velocity of waves in membrane      216
Velocity, bar      78
Velocity, particle      79 85
Velocity, phase      11—12
Vibrations of beams      155 170
Vibrations of finite rod      86—91
Vibrations of membranes      225—9
Vibrations of plates      246—53
Vibrations of strings      36—42
Vigness, I.      202 210
Viktorov, I. A.      325 326 327 387 389 391
Viscoelastic, effects      595—6
Viscoelastic, waves      3
Vlasov, V. Z.      259 271
Volterra, E. G.      105 128 129 135 481
Volumetric waves      277
von Schmidt wave      370 383
Wake of response      219—20
Warburton, G.B.      531 575
Warping of cross-section      181—2
Watson, G. N.      238 271 291 310
Wave in half-space      315
Wave, applications      3—5
Wave, compared to normal modes      94—5
Wave, equation for dilatational waves      276
Wave, equation for membrane      215
Wave, equation for rotational waves      277
Wave, equation for spherical waves      113
Wave, equation for string      10
Wave, equation for torsional waves      125—6
Wave, general      1—3
Wave, historical background      5—8
Wave, normal      312
Wave, propagation, and rigid-body motion      86
Wave, ratio      316
Wave, reflection, mixed boundary conditions      328—9
Wave, reflection, special cases of      319—21
Wave, spherical      297
Wave, standing      11
Wave, transmission, backward      572—5
Wave, types      273 81
Wave, velocity, equation, surface      325
Wavelength      12
Wavenumber      12
Wavenumber in half-space      315
Wavenumber, complex      69—70 455
Waves at oblique incidence      317—22
Waves from body forces      281—94
Waves from cavity sources      294—309
Waves in circular rods      464—75
Waves in cylindrical shells      475—80
Waves in finite string      36—7
Waves in half-space, experimental      382—9
Waves in infinite media      273—310
Waves in layered media      375—82
Waves in membrane strip      224—5
Waves in plates      435—40 458—60
Waves in plates and rods      431—581
Waves in rods      510—21
Waves in semi-infinite media      312—93
Waves in shells      521—32
Waves of grazing incidence      322—3
Waves, approximate theories of      480—532
Waves, diffraction of      409—28
Waves, scattering and diffraction of      394—430
Waves, surface, in half-space      323—8
Wells, A. A.      395 430 632 636
White, D. L.      631 636
Wide-band pulse      62—3 65—8 209
Wiener — Hopf method      411—27
Wilhoit, J. C. (Jr)      205 210 632 636
Wittrick, W. H.      208 210
Woinowsky — Krieger, S.      234 271
Woods, R. D      355 356 388 391
Worely, W. J.      636
Work-energy concepts      596—600
Wright, J. K.      303 310
Yang, T      133 135
Yeakley, L.      132 133 135
Ying, C. F      408 430
Yu, Y. Y.      522 531 579
Zauderer, E.      428 430
Zemanek, J. (Jr)      133 134 136 207 210

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