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Jones R.M. — Mechanics of composite materials

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Название: Mechanics of composite materials

Автор: Jones R.M.

Аннотация:

This book balances introduction to the basic concepts of the mechanical behavior of composite materials and laminated composite structures. It covers topics from micromechanics and macromechanics to lamination theory and plate bending, buckling, and vibration, clarifying the physical significance of composite materials. In addition to the materials covered in the first edition, this book includes more theory-experiment comparisons and updated information on the design of composite materials.

Язык:

Рубрика: Механика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: second edition

Год издания: 1999

Количество страниц: 519

Добавлена в каталог: 19.10.2005

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

Fiber-reinforced laminated composite materials, current and potential uses of      37—38
Fiber-reinforced laminated composite materials, definition of      11
Fiber-reinforced laminated composite materials, lay-up of      19—23
Fiber-reinforced laminated composite materials, manufacturing of      18—26
Fiber-reinforced laminated composite materials, molding of      20—23
Fiber-reinforced laminated composite materials, quality control factors      26
Fiber-reinforced laminated composite materials, tailoring of      12 18
Fiber-volume fraction      123
Fiberglass-epoxy      10
Fibers, boron      4
Fibers, carbon      4
Fibers, contiguity factor      147 149—151 160—163
Fibers, definition of      3
Fibers, diamond array      145—146
Fibers, function of      15
Fibers, glass      3
Fibers, graphite      4
Fibers, hexagonal array      146
Fibers, misalignment factor      149 160
Fibers, properties of      3—4 16
Fibers, random arrangement      147
Fibers, restrictions on micromechanical behavior      124
Fibers, square array      146
Fibers, staggered square array      145—146
Fibrous composite materials, definition of      2
Filament winding      19—20 74 119 410
Final design-analysis      388—389
Finite difference approach      145 266—267 289
Finite element approach      125 145 289
First-ply failure load      452
flaws      339 343
Flom, D.G.      4
Fourier series      289 291—292 296 328
Foye, R.L.      152 154 272
Fracture mechanics      339—345
Fracture mechanics, application to composite materials      343—345
Fracture mechanics, basic principles of      340—342
Fracture mechanics, crack extension modes      340
Fracture mechanics, fracture process      339
Fracture mechanics, strain-energy-reiease rate      340—341
Fracture mechanics, stress-intensity factors      342—344
Free thermal strain      242
Fried, N.      359
Galerkin method      289 306
Galvanic corrosion      361
General Dynamics F-111 wing-pivot fitting      38—40
Generally orthotropic lamina      77—79 (see also “Orthotropic lamina”)
Generally orthotropic laminate      214
Gere, J.M.      174—175 301 506
Girkmann, K.      350
Glass fibers      3
glass-epoxy      22 30—31 74 81—82 91 100—101 105—107 109 111—113 118 143 149 152—155 160 162 164 171—172 180—182 334 336 343 359 361 380 485—488
Glass-transition temperature      360
Goland, M.      419
Graphite fibers      4
Graphite-epoxy      17 29—30 33 35 38 41 43—44 47—48 50 52 84 98 100—101 113—114 147 152 184 221 245 267 269 297—298 300 310—313 319 321 325—328 336 347 354—361 369 380 391—392 395—397 415 421 457—458 485 491—494
Greszczuk, L.B.      171 182 336—338
Griffith, A.A.      340
Grumman X-29A      45
Gurland, J.      158
Hadcock, R.N.      439
Hahn, H.T.      99 362
Halpin — Tsai equations      123 126 137 151—157
Halpin, J.C.      97—98 119—120 123 126 151—155 199 363 365 466 485 489—494
Han, B.      269
Hansen, M.P.      345
Hart-Smith, L.J.      103 420 422
Hashin, Z.      143—144 147 159 163 170 362
Hatfield, S.J.      348
Henkel, J.      48
Henneke, E.G.      333
Hennemann, J.C.F.      286
Herakovich, C.T.      362
Hermans, J.J.      147 151—152
Herrmann, L R.      145
Heterogeneity      11 122
Hewitt, R.I.      152 156
High-speed civil transport      49—50
Hill, R.      105 109 111—112 115—116 147 151 241 246 249 256 258 422
Hinger, R.J.      329
Ho, P.B.C.      361
Hoffman failure criterion      105 112—114 422
Hoffman, O.      112 422
Holes in laminates      336—339
Hollister, G.S.      362
Homogeneity      11 122
Hooke’s law      118
Howell, H.B.      100
Humidity      359
Husman, G.E.      246 360
Hyer, M.W.      356—359
Hygroscopic stresses      245—246
Ifju, P.      269
Impact resistance      345
Inhomogeneity      11—12
Inhomogeneity, definition of      11
Innovative fabrication      463—464
Interaction strength      114—118
Interlaminar stresses      260—275 459—460
Interlaminar stresses, angle-ply laminates      260—275
Interlaminar stresses, boundary layer effect      267
Interlaminar stresses, cross-ply laminates      271 273
Interlaminar stresses, delamination-suppression concepts      274—275
Interlaminar stresses, elasticity solution      264—268
Interlaminar stresses, experimental confirmation      269—270
Interlaminar stresses, implications      272—274
Intermediate design-analysis      388
Invariant properties      85—87
Invariant stiffness concepts      85—87 440—447
Irwin, G.R.      340—341
Isotropic material      see also “Isotropy”
Isotropic material, definition of      11
Isotropic material, isotropic behavior      12—14
Isotropic material, plane stress state      70
Isotropic material, strain-stress relations      62
Isotropic material, stress-strain relations      60
Iteration      373 380 384 424
Jackson, A.C.      47—48
Johnson, R.      48
Joints      369 376—377 383 417—422
Joints, bolted      417 420—421
Joints, bonded      417—420
Joints, bonded-bolted      417 421
Joints, failures in bolted joints      420—421
Joints, failures in bonded joints      420
Joints, shimmed      421
Jones, R.M.      81 91 99 221 275 286 307—308 310—312 314 320 322—327 361—362 364 406 408 457 506
Judge, J.F.      26
June, R.R.      182—183
Kaminski, B.E.      335 345
Keiffer, R.      158
Kelly, A.      165 167
Kevlar      49-epoxy
Kevlar-epoxy      30 413 457—458
Kim, R.Y.      113—114
Kirchhoff free-edge condition      283 352
Kirchhoff hypothesis      192—195 281 347—348 504
Kirchhoff shear force      502
Kirchhoff-Love hypothesis      192—195
Konish, H.J., Jr.      345
Krock, R.H.      363
Lager, J.R.      182—183
Lamina stiffness in fiber direction      88 91 93—95
Lamina stiffness, shear      88 91 96—101 115
Lamina stiffness, transverse to fiber direction      88 91 95—96
Lamina strength in fiber direction      88 91 93—95
Lamina strength, shear      88 91 96—101 115
Lamina strength, transverse to fiber direction      88 91 95—96
Lamina, definition of      15 55
Lamina, design      85

Lamina, invariant properties of      85—87
Lamina, restrictions on micromechanical behavior      124
Lamina, strength      88—118
Lamina, stress-strain behavior      191
Lamina, unidirectionally reinforced      15 27—28
Laminate      435 (see also “Angle-ply laminate” “Cross-ply
Laminate behavior, brittle      449
Laminate behavior, ductile      449
Laminate behavior, energy absorption      449
Laminate behavior, fatigue      449
Laminate behavior, load-deflection behavior      449
Laminate design      431—440 446—453 461—462
Laminate design problem      434 450
Laminate design, laminae reorientation      436
Laminate life-prediction techniques      451
Laminate optimization      431—440 446—453 461—462
Laminate stacking sequence      379 449
Laminate strength analysis procedure      450
Laminate tailoring      378
Laminate, antisymmetric      214—222
Laminate, balanced      220—221
Laminate, curing      206 239
Laminate, cylindrical bending      346—350
Laminate, definition of      6 17 187
Laminate, design      431—440 446—453 461—462
Laminate, displacements      192—193
Laminate, environmental effects      359—361
Laminate, forces and moments      195—199
Laminate, fracture mechanics      339—345
Laminate, holes in      336—339
Laminate, hybrid      221
Laminate, interlaminar stresses      260—275
Laminate, Invariant stiffness concepts      440—447
Laminate, joints      417—422
Laminate, macromechanical behavior of      187—275
Laminate, manufacturing      18—26
Laminate, notation      219
Laminate, postcuring shapes      356—359
Laminate, purpose of      18
Laminate, quasi-isotropic      219—220 435 445
Laminate, regular      210—212 216—217 219
Laminate, stacking sequence      219 240 272 379 449
Laminate, stiffnesses      198—237
Laminate, strain and stress variation      191—195
Laminate, strength      237—260
Laminate, strength, analogy to plate buckling      237
Laminate, strength, analysis procedure      240—242
Laminate, strength, fatigue      272 333—336 339
Laminate, symmetric      206—214 354
Laminate, symmetry      439
Laminate, tailoring      378
Laminate, temperature-dependent properties of      197
Laminate, unsymmetric      206 214 218—219 356—359
Laminated composite materials      see also “Laminate”
Laminated composite materials, definition of      2 6
Laminated composite materials, types of      6—8
Laminated glass      7—8
Laminated plates      277—329
Laminated plates, behavioral restrictions and assumptions      279—282
Laminated plates, bending      277—279 282—285 289—301 323—325
Laminated plates, boundary conditions      283—285 287—288
Laminated plates, buckling      277—279 285—288 301—315 323—329
Laminated plates, governing equations      279—289
Laminated plates, initial Imperfections      303
Laminated plates, Kirchhoff hypothesis      281
Laminated plates, stiffnesses      325—326
Laminated plates, vibration      277—279 288 315—322 327
Laminated shells      361
Langhaar, H.L.      292 483
Latour, R.A.      183
Law of Mixtures      see “Rule of Mixtures”
Least-cost structures      368—369 375 412 425
Least-weight structures      375 377 425 427
Leissa, A.W.      295 298 329
Lekhnitskii, S.G.      79 336
Lempriere, B.M.      68
Liebowitz, H.      364 466
Life      424
Life-cycle cost      32 366 385
Lightning      359
Linear stress-strain behavior      16—17 91—99 102
Lockheed L-1011 vertical fin      47—48
Lockheed Martin F—22      46
Longitudinal stiffness      101 127—128 149
Longitudinal strength      88 91—95 101
Lubin, G.      394
MacDonaid, D.      118
Macromechanics, definition of      12 55 122
Major Poisson’s ratio      132
Mandell, J.F.      306
Manufacturing      18—26 376 424
Manufacturing processes      368
Manufacturing processes, contrast between metals and composites      464
Manufacturing, filament winding      19—20
Manufacturing, molding      20—23
Manufacturing, pultrusion      22—23
Manufacturing, resin-transfer molding      20—21
Manufacturing, roli forming      22
Manufacturing, sheet molding      22
Manufacturing, tape laying      19—20
Materials selection      369 376 389—400
Materials selection, factors      390
Materials utilization factor      33
Mathews, F.L.      422 466
Matrix (material)      15 55
Matrix (material), bismaleimides      394
Matrix (material), carbon      394
Matrix (material), definition of      5
Matrix (material), epoxy      393—394
Matrix (material), function of      15
Matrix (material), peek      394
Matrix (material), phenolics      394
Matrix (material), polyester      393
Matrix (material), polyimide      393—394
Matrix (material), polysulfone      394
Matrix (material), properties of      5—6
Matrix (material), restrictions on micromechanical behavior      124
Matrix (material), thermoplastic      393—394
Matrix (material), thermoset      393—394
Matrix (material), vinyl ester      393
Matrix (material), volume fraction      123
Matrix (mathematical)      56—63
Matrix (mathematical), addition      470
Matrix (mathematical), adjoint      471
Matrix (mathematical), algebra      467—472
Matrix (mathematical), cofactor      469
Matrix (mathematical), column      468
Matrix (mathematical), compliance      58
Matrix (mathematical), Cramer’s rule      472
Matrix (mathematical), definition of      467
Matrix (mathematical), determinant of      469
Matrix (mathematical), diagonal      468
Matrix (mathematical), identity      468
Matrix (mathematical), inverse      471
Matrix (mathematical), inversion      471
Matrix (mathematical), multiplication      470
Matrix (mathematical), nonsingular      472
Matrix (mathematical), principal or main diagonal of      468
Matrix (mathematical), reversal laws for      472
Matrix (mathematical), row      468
Matrix (mathematical), scalar      468
Matrix (mathematical), singular      471
Matrix (mathematical), solution of linear equations      471
Matrix (mathematical), square      467
Matrix (mathematical), stiffness      56 57
Matrix (mathematical), subtraction      470
Matrix (mathematical), symmetric      468
Matrix (mathematical), transpose      468
Matrix (mathematical), unit      468
Matrix selection factors      392

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