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

McCoy, J. J.      408 429 552 553 577
McLachlan, N. W.      111 136 291 292 307 308 310 363 390 397 429 460 577
McNiven et al. shell theory      531—3
McNiven, H. D      472 473 482 515 519 521 522 531 532 533 552 577 578 579
Medick, M. A.      239 244 256 257 258 270 458 482 494 495 498 502 508 510 516 531 578
Meeker, T. R.      442 443 464 572 577
Meitzler, A. H.      442 443 464 571 572 573 574 577
Membrane shell theory      259—62
Membranes, thin plates, and shells, waves in      213—72
Membranes, waves in      213—29
Merkulov, L.G.      116 136
Metal forming, as use of stress waves      4
Meyer, M. L.      303 310
Microstructure effects      596
Miklowitz, J.      270 308 310 343 391 428 429 552 557 558 559 560 561 565 566 577 578 579
Miles, J. W.      408 429
Miller, G. F.      344 351 352 353 354 355 370 372 391
Mindlin — Herrmann rod theory      510—15
Mindlin — McNiven rod theory      515—21
Mindlin, R. D.      450 451 453 454 456 457 458 463 472 473 474 481 482 493 494 495 498 502 508 510 515 516 519 521 522 523 531 552 578 579
Mirsky — Herrmann shell theory      522—7
Mirsky, I.      482 521 522 526 531 578
Mitra, M. Von      343 368 370 372 373 391
Mixed boundary conditions waves in plate with      435—40
Mixed boundary conditions, reflection of waves by      328—9
Mode, conversion in half-space      318—19
Mode, coupling in rods      571—2
Mode, shapes, for plates      248—51 253
Modes in mixed boundary condition plate      438— 40
Modes of deformation, in Timoshenko beam      183—4
Modes of SH waves in plate      433—4
Modes of vibration of half-space      371
Modulation of wave group      60
Moment of momentum, conservation of      587—8
Momentum, conservation of      587
Momentum, trap, to detect stress waves      632
Moore, H. K.      631 636
Moore, P.      202 255 256 270
Morgan, G. W.      521 531 577
Mori, D.      206 210
Morley, L. S. D      201 208 210
Morse, P.      109 110 113 136 146 210 219 220 227 229 253 270 275 285 287 310 402 409 410 411 420 429 465 578
Morse, R. W.      481 578
Moving load on beam      174—5 169—70 174 5
Mow, С. C.      401 408 429
Muster, D.      105 135
Naghdi — Cooper shell theory      527—30
Naghdi, P.      42 71 259 270 521 527 530 531 575 578
Narrow-band pulse in dispersive string      62—5
Narrow-band pulse in shell      575
Natural frequencies of beam under prestress      177
Natural frequencies of circular membranes      227—9
Natural frequencies of clamped circular plate      253
Natural frequencies of composite rods      88—9
Natural frequencies of finite beams      155—8
Natural frequencies of rectangular membranes      226
Natural frequencies of SH modes in plate      461
Natural frequencies of string      38
Natural frequencies of thin rods      86—7
Navier’s equations      274—5
Neville, G. E. (Jr)      631 636
Nicholas, T      133 136 632 636
Nisewanger, C. R.      565 566
Noble, B      411 426 429
nodes      11 39
Non-destructive testing      4
Non-linear effects      596
Normal mode, expansion applied to beam      163—7
Normal to wavefront      215 278 280
Normal, incidence of waves in half-space      319
Normal, load on half-space      344—68
Normal, modes of circular membrane      227—9
Normal, modes of circular plate      253
Normal, modes of finite beams      155—8
Normal, modes of rectangular membrane      226—7
Normal, modes of string      38 40
Normal, modes of thin rod      86 91
Normal, plate      254
Normal, solution compared to wave solution      94—5
Normal, solution for impulse on rod      91—2
Normal, solution for string      39—42 49—51
Normal, string      49 50
Normalizing factor      42
Norwood, F. R.      428 429 554 557 577
Oberhettinger, F.      577
Oblique incidence of waves in half-space      317—22
Oliver, J.      255 257 271 563 564 579 631 636 456 457 458 472 473 578 579
Orthogonality of normal modes      40—1 159 253—5
P-waves in half-space      317 19
Pairs of waves in half-space      321—2
Pao, Y. H      395 401 408 429 430 473 474 579
Parseval’s theorem      621
Partial fractions      179 290 606
Particle motion of surface waves      326—8
Pearson, K.      104 136
Pearson, С. E.      341 389
Pekeris, C. L      343 363 368 369 374 376 391
Percival      632 636
Percussive drilling      5
Period of wave motion      12
Permutation symbol      583
Perry, С. C.      632 636
Phase      11
Phase, velocity for waves in membrane strip      225
Phase, velocity from frequency spectrum      55
Phase, velocity in beams      207
Phase, velocity in string      11 12 52
Philipson, L. L.      201 210
Photo-elasticity, to detect stress waves      206 387—9 394—5 633
Piezoelectric, effect      595
Piezoelectric, material, in ultrasonics      88
Piezoelectric, transducers, to detect stress waves      255 633
Piezoelectric, transducers, to produce stress waves      384—5 571 630—1
Piezoelectric, used in stress waves      4
Plane, harmonic waves, superposition of      287
Plane, infinite media      278—81
Plane, membrane      215—7
Plane, semi-infinite media in contact      377—80
Plane, thin plate      235—6
Plane, waves in half-space      312—29
Plastic waves      3 596
Plate with elastically restrained boundaries      450—2
Plate, extensional waves in      494—510
Plate, flexural waves in      482—94
Plate, harmonic waves in      431—3
Plate, transient waves in      557—61
Plate, velocity      264 267 492
Plates and rods, waves in      431—81
Pochhammer frequency equation      470—1 545—6 549
Pochhammer, L.      116 136
Poles, on real axis      27—8 70—1 152
Polivka      133 135
Post, D      395 430 632 636
Potential function equations      275—6
Power in string      21
Precursors of waves      244
Prescott, J.      481 579
Press, F      255 257 271 328 341 343 373 374 375 380 390 631 636
Pressure bar, Hopkinson      632
Prestress in beam      175—7
Propagation without distortion      14
Propagation, in Timoshenko beam      187 95
Pulse from spherical cavity      297—300
Pulse in infinite rod      538—42
Pulse in string      57—68
Pulse, dispersion, in rod      563—7
Pulse, distortion due to mode coupling      572
Pulse, mechanism of      53
Pulses, Fourier spectra of      627—8
Pursey, H      344 351 352 353 354 355 370 372 391

Quarrying      5
Radiation condition      22
Radiation condition for beam      149 152
Radiation condition for half-space analysis      348
Radiation condition for scattering by cylindrical cavity      397
Radiation condition for SH waves in plate      534—5
Radiation condition for Sommerfeld diffraction problem      416
Radiation condition for waves from spherical cavity      295
Radiation condition for waves in horns      111 119
Rayleigh from buried source      374—5
Rayleigh from load on half-space      355—6 36
Rayleigh in approximate plate theory      510
Rayleigh in half-space analysis      347
Rayleigh in spectrum for plate      454
Rayleigh, correction, in rods      471—2
Rayleigh, experimental results      382—9
Rayleigh, J. W. S.      59 71 116 136 181 210 282 310 324 391 408 429 481 530 579
Rayleigh, quote on group velocity      59
Rayleigh, surface wave (see also surface waves)      325
Rayleigh, theory, for beams      186—7
Rayleigh, wave velocity      326 388
Rayleigh-Lamb, equation for plate      440—2 445—58
Rayleigh-Lamb, equation from circular waves in plate      459—60
Rayleigh-Lamb, equation, modes, interpretation of      446—7
Rayleigh-Lamb, equation, spectrum      454—5
Rectangular plates, vibrations of      246—51
Redwood, M      447 579 631 636
Reflection from elastic boundary      31—4
Reflection in beam      153—5
Reflection in membranes      222—4
Reflection in string      29—36
Reflection in thin plates      245—6
Reflection in thin rod      80—4
Reflection in waveguide      561—2
Reflection of pairs of waves      321—2
Reflection of waves in half space      312—29
Reflection of waves in two semi-infinite media      378—9
Reflection of waves, general      2
Reflection, coefficient, for thin rod      137
Refraction of waves      378—9
Reinhardt, H. W      389 391
Reissner, E.      270 527 579
Retarded potential solution      283
Ricketts, T. E      134 136
Rigid-body motion in bounded plate      461
Rigid-body motion of rod      87 123
Riley, W. F      382 384 389 390 391 394 428 629 632 634
Rings, experimental results for      208—9
Rings, waves in      195—201
Ripperger, E. A.      105 128 130 136 202 206 210 385 390
Rod of variable cross-section      109—10
Rod, experimental results for      563—5
Rod, governing equation for thin      76—7
Rod, longitudinal waves in thin      75—139
Rod, transient waves in      547—57
Rod, vibrations of      84—95
Rod, waves in long      76—9
Rods and plates, experimental results for transient waves in      543—61
Rods and plates, shells, experimental studies on      571—5
Rotary inertia, correction for in beams      181
Rotary inertia, neglect of      141—2 144
Rotation, method, applied to rod analysis      550—1
Rotation, saddle point      (see also Steepest descent)
Rotation, tensor      274 584
Rotation, vector      275
Rudnick, I.      133 134 136 207 210
Russell, S.      59
Sackman, J. L.      482 522 531 532 533 577
Saddle points in analysis of half-space      349—50
Saddle points in SH wave solution      342
Saddle points in steepest-descent method      337—9
Saddle points, deformation of contour through      339—40
Sanders, J. L.      259 271
Scalar potential      275
Scattering by cavities      395—408
Scattering by cavities and diffraction of waves      394—430
Schweiger, H. A.      206 210
Scott, R. A.      559 560 561 579
Seismic waves in layered earth      375
Seismology as basis for Love waves      380
Selberg, H. L.      299 300 303 306 307 309 310
Semi-infinite media, waves in      312—93
Separation of variables applied to natural frequencies of beams      155
Separation of variables applied to reflection in membranes      222
SH modes, of bounded plate      460—1
SH waves in a plate      534 537
SH waves in a plate, vibrations of plates      246—7
SH waves in a plate, vibrations of string      40
SH waves in a plate, wave equation      10
SH waves in half-space      314 316 321
SH waves in in half-space      329—35 341-3
SH waves in in infinite media      283—8
SH waves in in plate      432—5 533-8
SH waves in in Sommerfeld diffraction problem      412
SH waves in layer      (see Love waves)
SH waves in scattering by cylindrical cavity      395—400
Shadow zone      400 411
Shah, A. H      482 522 531 532 533 577
Shaw, E. A. G.      457 575
Shaw, R. P.      410 428 429
Shea, R.      394 429
Shear, coefficient for plate theory      484
Shear, coefficient, Timoshenko      183 186
Shear, deformation in beam      180—1
Shear, deformation, neglect of in beams      143—4
Shear, effects in beams      180—95
Shear, window      355—6
Shell, theories, comparison of      530—2
Shell, theories, discussion of      259
Shell, theory, McNiven el al      531—3
Shell, theory, Mirsky — Herrmann      522—7
Shell, theory, Naghdi — Cooper      527—30
Shells, experimental results      574—5
Shells, waves in      521—32
Shift theorem      (see Translation theorem)
Shock tube, for stress waves      565—9 632
Shook, C. A.      547 548 549 557 576
Short-wavelength limit for membrane shells      264
Short-wavelength limit for Mindlin — Herrmann rod theory      514
Short-wavelength limit for plates      449—50
Short-wavelength limit for Timoshenko beam theory      185
Sih, G. C.      427 429
Silverman, D.      561 562 576
Skalak, R.      543 547 548 551 579
Sneddon, I. N.      144 210 217 218 239 271 288 309 621 636
Snell’s law      316
Sokolnikoff, I. S.      590 591 636
Sommerfeld diffraction problem      410—27
Source, experimental results on      382—4
Source, problems      343—75
Source, waves from load on half-space      352—3
Source, waves in half-space      323—8
Source, waves, experimental results      384—6
Spallation      82
Spark source, to produce stress waves      255 257 631
Spherical coordinates      601—2
Split Hopkinson pressure bar      130—3
St. Venant, B. D.      100 136
Standing wave      11 13 463
Stationary phase method      65
Stationary phase method, applied to shell impact      269
Stationary phase method, plate      558—9
Stationary phase method, pulse in rod      538—9
Steepest-descent method      336—41
Steepest-descent method, applied to load on half-space analysis      349—51
Stegun, I. A.      148 209 228 242 270 426 428 546 575
Stephenson, J. G.      205 210 632 636
Sternberg, E.      276 310
Stoker, J. J.      411 426 429
Stokes, explanation of group velocity      59— 61

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