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Rubinstein M., Colby R.H. — Polymer Physics
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Название: Polymer Physics
Авторы: Rubinstein M., Colby R.H.
Аннотация: Polymer Physics thoroughly details the fundamental concepts of polymer melts, solutions, and gels in terms of both static structure and dynamics. It goes beyond other introductory polymer texts, deriving the essential tools of the physical polymer chemist or engineer without skipping any steps.
The book is divided into four parts. Part One summarizes the necessary concepts of a first course on polymers and covers the conformations of single polymer chains. Part Two deals with the thermodynamics of polymer solutions and melts, including chain conformations in those states. Part Three applies the concepts of Part Two to the formation and properties of polymer networks. Part Four explains the essential aspects of how polymers move in both melt and solution states.
The text assumes a working knowledge of calculus, physics, and chemistry, but no prior knowledge of polymers. It is ideal for upper-level undergraduate and first-year graduate courses in Condensed Matter Physics, Soft Materials, and Polymers.
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Рубрика: Физика /
Статус предметного указателя: Готов указатель с номерами страниц
ed2k: ed2k stats
Год издания: 2003
Количество страниц: 454
Добавлена в каталог: 26.09.2009
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Предметный указатель
strands 199
Strands elastically effective 263
Strands, near-critical network 238
Stress 258 282
Stress relaxation modulus 284
Stress tensor 258
Stress-induced crystallization 264
Stretching, ideal chain 72
Stretching, network strands 259
Stretching, real chain 104 107 126 129 131
Strong physical bond 199
Structural isomerism 4
Subdiffusive motion 322
Subdiffusive motion reptation model 382 383 413
Subdiffusive motion Rouse model 322 325 382
Subdiffusive motion semidilute solution 356 413
Subdiffusive motion Zimm model 325 355
Substitutional alloy 204
Surface tension 175 194
Swelling 274
Swelling athermal solvent 277
Swelling theta solvent 276
Swelling, randomly branched 127 131
Swelling, related to modulus 280
Syndiotactic 4
Tacticity 4
Telechelic 94 267
Tensile strain 296
Tension blob 73 106
Tetrahedral angle 49
Thermal blob 113 131 132 175 178 192 193
Thermal energy 27
Thermoelasticity 255 295—297
Thermoplastic elastomer 200
Thermoreversible gel 200
Theta solvent 101
Theta temperature 49 101 132 167 171
Three-body-interaction coefficient 100
Time autocorrelation function 345
Time-temperature superposition 335 337 338
Torsion angle 49
Trans rotation state 50
Transition zone 339
True stress 258 298
Tube 265 361
Tube diameter 265 361
Tube diameter semidilute solution 368 369 407
Tube diameter solution 370
Tube diameter table 362
Tube diameter, non-affine 273
Tube dilation 391 416—419
Tube end entropy 375
Tube length fluctuations 375
Tube length fluctuations viscosity 386
Tube length fluctuations, oscillatory shear 386
Tube length fluctuations, stress relaxation modulus 383
Tube models 363
Turbidity 45
Universal calibration 37
Universal scaling curve 228
Universality class 231
Upper critical solution temperature 153 169
van't Hoff Law 27 156
Verdier — Stockmayer model 397 398 420
Verlet algorithm 393 393
Virial series 28 33 100 116 129 156 181 184
Viscoelasticity 14 282
Viscoelasticity table of methods 294
viscosity 283 310
Viscosity computer simulations 401
Viscosity Doi fluctuation model 386
Viscosity integral of G(t) 286
Viscosity Rouse model 321
Viscosity Zimm model 324
Viscosity, blend 355
Viscosity, intrinsic 315
Viscosity, kinematic 335
Viscosity, randomly branched 343
Viscosity, reduced 315
Viscosity, relative 314
Viscosity, reptation model, entangled melts 367
Viscosity, reptation model, semidilute solutions 373 408
Viscosity, semidilute unentangled 330
Viscosity, specific 315
Viscosity, star polymer 379
Viscosity, unentangled melts 341
Viscosity, zero shear rate 287
Vogel temperature 338 356
Vogel temperature table 340
Vogelplot 338
Voigt model 304
Volume fraction 13
Vulcanization 201 227 237 250
Wavelength, bending mode 332
Wavevector, incident 80
Wavevector, scattered 80
Wavevector, scattering 81
Weight distribution function, branched condensation 221
Weight fraction 16 22
Weight fraction, linear condensation 24
Weight fraction, Poisson 25 43
Weight fraction, Shultz 25 43
Weight fraction, vulcanization 250
Weight-average molar mass 18; see “Molar mass”
WLF equation 338 357
Worm-like chain model 57 77 78 90
Young's modulus 296 304
Z-average molar mass 18 222
Zimm model 312
Zimm model, correlation volume 355
Zimm model, diffusion coefficient 313 354
Zimm model, dynamic structure factor 350
Zimm model, fractals 353
Zimm model, intrinsic viscosity 316 324
Zimm model, oscillatory shear 324 355
Zimm model, oscillatory shear relaxation modes 323
Zimm model, stress relaxation modulus 323 329 372
Zimm model, subdiffusive motion 325
Zimm model, viscosity 324
Zimm plot 96
Zimm time 313
Zimm time, correlation volume 326 371
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