Verfügbarkeit: Random heterogeneous materials

Random heterogeneous materials: microstructure and macroscopic properties

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Bibliographische Detailangaben
1. Verfasser:	Torquato, Salvatore (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New York [u.a.] Springer 2002
Schriftenreihe:	Interdisciplinary applied mathematics 16
Schlagworte:	Inhomogenes Medium - Mikrostruktur - Physikalische Eigenschaft Inhomogeneous materials Microstructure Heterogenes System Mikrostruktur Physikalische Eigenschaft Inhomogenes Medium Medium > Physik Stochastisches System
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXI, 701 S. graph. Darst.
ISBN:	9780387951676 0387951679

Internformat

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Datensatz im Suchindex

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adam_text	Contents Preface vii 1 Motivation and Overview 1 1.1 What Is a Heterogeneous Material? 1 1.2 Effective Properties and Applications 3 1.2.1 Conductivity and Analogous Properties 6 1.2.2 Elastic Moduli 7 1.2.3 Survival Time or Trapping Constant 8 1.2.4 Fluid Permeability 8 1.2.5 Diffusion and Viscous Relaxation Times 9 1.2.6 Definitions of Effective Properties 9 1.3 Importance of Microstructure 10 1.4 Development of a Systematic Theory 12 1.4.1 Microstructural Details 12 1.4.2 Multidisciplinary Research Area 14 1.5 Overview of the Book 17 1.5.1 Parti 17 1.5.2 Part II 18 1.5.3 Scope 19 1 Microstructure Characterization 21 2 Microstructural Descriptors 23 2.1 Preliminaries 24 xii Contents 2.2 rz Point Probability Functions 25 2.2.1 Definitions 25 2.2.2 Symmetries and Ergodicity 28 2.2.3 Geometrical Probability Interpretation 32 2.2.4 Asymptotic Properties and Bounds 33 2.2.5 Two Point Probability Function 34 2.3 Surface Correlation Functions 43 2.4 Lineal Path Function 44 2.5 Chord Length Density Function 45 2.6 Pore Size Functions 48 2.7 Percolation and Cluster Functions 50 2.8 Nearest Neighbor Functions 50 2.9 Point/g Particle Correlation Functions 57 2.10 Surface/Particle Correlation Function 58 3 Statistical Mechanics of Many Particle Systems 59 3.1 Many Particle Statistics 60 3.1.1 n Particle Probability Densities 60 3.1.2 Pair Potentials 65 3.2 Ornstein Zernike Formalism 72 3.3 Equilibrium Hard Sphere Systems 75 3.3.1 Low Density Expansions 79 3.3.2 Arbitrary Fluid Densities 81 3.4 Random Sequential Addition Processes 83 3.4.1 One Dimensional Identical Hard Rods 85 3.4.2 Identical Hard Spheres in Higher Dimensions 87 3.4.3 General Hard Particle Systems 88 3.5 Maximally Random Jammed State 88 3.5.1 Random Close Packing Is Ill Defined 89 3.5.2 Definition of Maximally Random Jammed State 90 3.5.3 Order Metrics 92 3.5.4 Molecular Dynamics Simulations 93 3.5.5 Concluding Remarks 95 4 Unified Approach to Characterize Microstructure 96 4.1 Volume Fraction and Specific Surface 97 4.1.1 Bounding Properties 100 4.1.2 Example Calculations 102 4.2 Canonical Correlation Function Hn 104 4.2.1 Definitions 105 4.2.2 Asymptotic Properties 109 4.3 Series Representations of Hn 109 4.3.1 Mayer Representation 110 Contents xiii 4.3.2 Kirkwood Salsburg Representation Ill 4.3.3 Bounding Properties 112 4.4 Special Cases of Hn 114 4.5 Polydispersivity 116 4.6 Other Model Microstructures 118 5 Monodisperse Spheres 119 5.1 Fully Penetrable Spheres 120 5.1.1 K Point Probability Functions 122 5.1.2 Surface Correlation Functions 124 5.1.3 Lineal Path Function 125 5.1.4 Chord Length Density Function 127 5.1.5 Nearest Neighbor Functions 128 5.1.6 Pore Size Functions 128 5.1.7 Point/g Particle Correlation Functions 129 5.2 Totally Impenetrable Spheres 129 5.2.1 n Point Probability Functions 130 5.2.2 Surface Correlation Functions 134 5.2.3 Lineal Path Function 136 5.2.4 Chord Length Density Function 137 5.2.5 Nearest Neighbor Functions 139 5.2.6 Pore Size Functions 151 5.2.7 Point/g Particle Correlation Functions 152 5.3 Interpenetrable Spheres 153 5.3.1 Nearest Neighbor Functions 154 5.3.2 Volume Fraction 155 5.3.3 Specific Surface 155 5.3.4 Pore Size Functions 157 5.3.5 Other Statistical Descriptors 157 5.4 Statistically Inhomogeneous Systems 158 6 Polydisperse Spheres 160 6.1 Fully Penetrable Spheres 161 6.1.1 M Point Probability Functions 163 6.1.2 Surface Correlation Functions 164 6.1.3 Lineal Path Function 165 6.1.4 Chord Length Density Function 166 6.1.5 Nearest Surface Functions 166 6.1.6 Pore Size Functions 167 6.1.7 Point/^ Particle Correlation Functions 167 6.2 Totally Impenetrable Spheres 167 6.2.1 H Point Probability Functions 169 6.2.2 Surface Correlation Functions 170 xiv Contents 6.2.3 Lineal Path Function 171 6.2.4 Chord Length Density Function 171 6.2.5 Nearest Surface Functions 172 6.2.6 Pore Size Functions 176 6.2.7 Point/g Particle Correlation Functions 176 7 Anisotropic Media 177 7.1 General Considerations 177 7.2 Fully Penetrable Oriented Inclusions 179 7.3 Impenetrable Oriented Inclusions 181 7.4 Hierarchical Laminates 183 8 Cell and Random Field Models 188 8.1 Cell Models . 188 8.1.1 Voronoi and Delaunay Tessellations 189 8.1.2 Cell Statistics 192 8.1.3 Symmetric Cell Materials 194 8.1.4 Random Checkerboard 199 8.1.5 Ising Model 201 8.2 Random Field Models 203 8.2.1 General Considerations 203 8.2.2 Gaussian Convolved Intensities 207 9 Percolation and Clustering 210 9.1 Lattice Percolation 211 9.1.1 Bond and Site Percolation 211 9.1.2 Percolation Properties 215 9.1.3 Scaling and Critical Exponents 217 9.1.4 Infinite Cluster and Fractality 222 9.1.5 Finite Size Scaling 223 9.2 Continuum Percolation 224 9.2.1 Percolation Properties 227 9.2.2 Two Point Cluster Function 230 9.2.3 Critical Exponents 231 10 Some Continuum Percolation Results 234 10.1 Exact Results for Overlapping Spheres 234 10.1.1 One Dimension 235 10.1.2 Higher Dimensions 240 10.1.3 Low Density Expansions of Cluster Statistics 242 10.2 Ornstein Zernike Formalism 243 10.3 Percus Yevick Approximations 245 10.3.1 Permeable Sphere Model 246 Contents xv 10.3.2 Cherry Pit Model 248 10.3.3 Sticky Hard Sphere Model 249 10.4 Beyond Percus Yevick Approximations 250 10.5 Two Point Cluster Function 250 10.6 Percolation Threshold Estimates 251 10.6.1 Overlapping Disks and Spheres 252 10.6.2 Nonspherical Overlapping Particles 254 10.6.3 Interacting Particle Systems 255 11 Local Volume Fraction Fluctuations 257 11.1 Definitions 258 11.2 Coarseness 260 11.2.1 General Formula 260 11.2.2 Asymptotic Formula 261 11.2.3 Calculations 262 11.3 Moments of Local Volume Fraction 264 11.4 Evaluations of Full Distribution 265 12 Computer Simulations, Image Analyses, and Reconstructions 269 12.1 Monte Carlo Simulations 270 12.1.1 Introduction 270 12.1.2 Importance Sampling 271 12.2 Metropolis Method for Gibbs Ensembles 273 12.2.1 Markov Chain 273 12.2.2 Algorithm 275 12.2.3 Practical Implementation 275 12.2.4 Hard Spheres 277 12.2.5 Other Particle Systems 278 12.2.6 Cell Models 279 12.3 Methods for Generating Nonequilibrium Ensembles 279 12.4 Sampling in Particle Systems 281 12.4.1 Radial Distribution Function 281 12.4.2 n point Probability Functions 283 12.4.3 Surface Con elation Functions 285 12.4.4 Cluster Type Functions 285 12.4.5 Other Correlation Functions 286 12.5 Sampling Images and Digitized Media 287 12.5.1 Two Point Probability Function 289 12.5.2 Lineal Path Function 291 12.5.3 Chord Length Density Function 292 12.5.4 Pore Size Functions 292 12.5.5 Two Point Cluster Function 293 xvi Contents 12.6 Reconstructing Heterogeneous Materials 294 12.6.1 Reconstruction Procedure 295 12.6.2 Illustrative Examples 297 II Microstructure/Property Connection 303 13 Local and Homogenized Equations 305 13.1 Preliminaries 306 13.2 Conduction Problem 308 13.2.1 Local Relations 308 13.2.2 Conduction Symmetry 311 13.2.3 Model One Dimensional Problem 313 13.2.4 Homogenization of Periodic Problem in did 315 13.2.5 Homogenization of Random Problem in Wrf 318 13.2.6 Frequency Dependent Conductivity 321 13.3 Elastic Problem 321 13.3.1 Local Relations 321 13.3.2 Elastic Symmetry 324 13.3.3 Homogenization of Random Problem in ffirf 332 13.3.4 Heterogeneous Materials 334 13.3.5 Relationship Between Elasticity and Viscous Fluid Theory . . . 337 13.3.6 Viscosity of a Suspension 338 13.3.7 Viscoelasticity 339 13.4 Steady State Trapping Problem 339 13.4.1 Local Relations 341 13.4.2 Homogenization of Random Problem in !)irf 341 13.5 Steady State Fluid Permeability Problem 344 13.5.1 Local Relations 345 13.5.2 Homogenization of Random Problem in Md 346 13.5.3 Relationship to Sedimentation Rate 348 13.6 Classification of Steady State Problems 349 13.7 Time Dependent Trapping Problem 350 13.7.1 Basic Equations 350 13.7.2 Relationship Between Survival and Relaxation Times 353 13.8 Time Dependent Flow Problem 354 13.8.1 Basic Equations 354 13.8.2 Relationship Between Permeability and Relaxation Times . . . 356 14 Variational Principles 357 14.1 Conductivity 359 14.1.1 Field Fluctuations 359 14.1.2 Energy Representation 361 Contents xvii 14.1.3 Minimum Energy Principles 363 14.1.4 Hashin Shtrikman Principle 367 14.2 Elastic Moduli 368 14.2.1 Field Fluctuations 369 14.2.2 Energy Representation 370 14.2.3 Minimum Energy Principles 373 14.2.4 Hashin Shtrikman Principle 377 14.3 Trapping Constant 379 14.3.1 Energy Representation 379 14.3.2 Minimum Energy Principles 380 14.4 Fluid Permeability 383 14.4.1 Energy Representation 383 14.4.2 Minimum Energy Principles 385 15 Phase Interchange Relations 390 15.1 Conductivity 390 15.1.1 Duality for Two Dimensional Media 390 15.1.2 Three Dimensional Media 397 15.2 Elastic Moduli 398 15.2.1 Two Dimensional Media 398 15.2.2 Three Dimensional Media 401 15.3 Trapping Constant and Fluid Permeability 402 16 Exact Results 403 16.1 Conductivity 404 16.1.1 Coated Spheres Model 404 16.1.2 Simple Laminates 407 16.1.3 Higher Order Laminates and Attaimibility 410 16.1.4 Fiber Reinforced Materials 413 16.1.5 Periodic Arrays of Inclusions 413 16.1.6 Low Density Cellular Solids 415 16.1.7 Field Fluctuations 416 16.2 Elastic Moduli 417 16.2.1 Coated Spheres Model 417 16.2.2 Simple Laminates 419 16.2.3 Higher Order Laminates and Attainability 424 16.2.4 Periodic Arrays of Inclusions 426 16.2.5 Low Density Cellular Solids 428 16.2.6 Equal Phase Shear Moduli 429 16.2.7 Sheets with Holes 429 16.2.8 Dispersions of Particles in a Liquid 429 16.2.9 Cavities (Bubbles) in an Incompressible Matrix (Liquid) . . . 429 16.2.10 Field Fluctuations 430 xviii Contents 16.2.11 Link to Two Dimensional Conductivity 430 16.2.12 Link to Thermoelastic Constants 431 16.3 Trapping Constant 432 16.3.1 Diffusion Inside Hyperspheres 432 16.3.2 Periodic Arrays of Traps 433 16.4 Fluid Permeability 434 16.4.1 Flow Between Plates and Inside Tubes 434 16.4.2 Periodic Arrays of Obstacles 436 17 Single Inclusion Solutions 437 17.1 Conduction Problem 437 17.1.1 Spherical Inclusion 437 17.1.2 Polarization Within an Ellipsoid 441 17.2 Elasticity Problem 442 17.2.1 Spherical Inclusion 442 17.2.2 Polarization Within an Ellipsoid 448 17.3 Trapping Problem 451 17.3.1 Spherical Trap 451 17.3.2 Spheroidal Trap 453 17.4 Flow Problem 455 17.4.1 Spherical Obstacle 455 17.4.2 Spheroidal Obstacle 457 18 Effective Medium Approximations 459 18.1 Conductivity 459 18.1.1 Maxwell Approximations 460 18.1.2 Self Consistent Approximations 462 18.1.3 Differential Effective Medium Approximations 467 18.2 Elastic Moduli 470 18.2.1 Maxwell Approximations 470 18.2.2 Self Consistent Approximations 474 18.2.3 Differential Effective Medium Approximations 477 18.3 Trapping Constant 479 18.4 Fluid Permeability 481 19 Cluster Expansions 485 19.1 Conductivity 486 19.1.1 Dilute Dispersions of Spheres 488 19.1.2 Dilute Dispersions of Ellipsoids 490 19.1.3 Nondilute Concentrations 491 19.2 Elastic Moduli 496 19.2.1 Dilute Dispersions of Spheres 497 19.2.2 Dilute Dispersions of Ellipsoids 500 Contents xix 19.2.3 Nondilute Concentrations 501 19.3 Trapping Constant 502 19.3.1 Dilute Dispersions of Spherical Traps 502 19.3.2 Dilute Dispersions of Spheroidal Traps 503 19.3.3 Nondilute Concentrations 504 19.4 Fluid Permeability 505 19.4.1 Dilute Beds of Spheres 505 19.4.2 Dilute Beds of Spheroids 506 19.4.3 Nondilute Concentrations 507 20 Exact Contrast Expansions 509 20.1 Conductivity Tensor 510 20.1.1 Integral Equation for Cavity Electric Field 511 20.1.2 Strong Contrast Expansions 514 20.1.3 Some Tensor Properties 519 20.1.4 Weak Contrast Expansions 520 20.1.5 Expansion of Local Electric Field 521 20.1.6 Isotropic Media 521 20.2 Stiffness Tensor 530 20.2.1 Integral Equation for the Cavity Strain Field 530 20.2.2 Strong Contrast Expansions 534 20.2.3 Weak Contrast Expansions 539 20.2.4 Expansion of Local Strain Field 540 20.2.5 Isotropic Media 541 21 Rigorous Bounds 552 21.1 Conductivity 554 21.1.1 General Considerations 554 21.1.2 Contrast Bounds 555 21.1.3 Cluster Bounds 563 21.1.4 Security Spheres Bounds 564 21.2 Elastic Moduli 566 21.2.1 General Considerations 566 21.2.2 Contrast Bounds 568 21.2.3 Cluster Bounds 576 21.2.4 Security Spheres Bounds 577 21.3 Trapping Constant 578 21.3.1 Interfacial Surface Lower Bound 579 21.3.2 Void Lower Bound 580 21.3.3 Cluster Lower Bounds 581 21.3.4 Security Spheres Upper Bound 582 21.3.5 Pore Size Upper Bound 584 xx Contents 21.4 Fluid Permeability 585 21.4.1 Interfacial Surface Upper Bound 585 21.4.2 Void Upper Bound 586 21.4.3 Cluster Upper Bounds 587 21.4.4 Security Spheres Lower Bound 589 21.5 Structural Optimization 590 21.6 Utility of Bounds 592 22 Evaluation of Bounds 593 22.1 Conductivity 594 22.1.1 Contrast Bounds 594 22.1.2 Cluster Bounds 609 22.1.3 Security Spheres Bounds 610 22.2 Elastic Moduli 611 22.2.1 Contrast Bounds 611 22.2.2 Cluster Bounds 620 22.2.3 Security Spheres Bounds 620 22.3 Trapping Constant 621 22.3.1 Interfacial Surface Lower Bound 621 22.3.2 Void Lower Bound 623 22.3.3 Cluster Lower Bounds 624 22.3.4 Security Spheres Upper Bound 625 22.3.5 Pore Size Upper Bound 625 22.4 Fluid Permeability 627 22.4.1 Interfacial Surface Upper Bound 627 22.4.2 Void Upper Bound 629 22.4.3 Cluster Upper Bounds 630 22 A A Security Spheres Lower Bound 631 23 Cross Property Relations 632 23.1 Conductivity and Elastic Moduli 633 23.1.1 Elementary Bounds 633 23.1.2 Translation Bounds fore? = 2 636 23.1.3 Translation Bounds for d = 3 642 23.2 Flow and Diffusion Parameters 647 23.2.1 Permeability and Survival Time 647 23.2.2 Permeability, Formation Factor, and Viscous Relaxation Times 650 23.2.3 Viscous and Diffusion Relaxation Times 654 A Equilibrium Hard Disk Program 656 B Interrelations Among Two and Three Dimensional Moduli 661 Contents xxi References 663 Index 693
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id	DE-604.BV013972420
illustrated	Illustrated
indexdate	2024-07-09T18:55:22Z
institution	BVB
isbn	9780387951676 0387951679
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-009563271
oclc_num	248518949
open_access_boolean
owner	DE-703 DE-91G DE-BY-TUM DE-29T DE-19 DE-BY-UBM DE-526 DE-91 DE-BY-TUM DE-83
owner_facet	DE-703 DE-91G DE-BY-TUM DE-29T DE-19 DE-BY-UBM DE-526 DE-91 DE-BY-TUM DE-83
physical	XXI, 701 S. graph. Darst.
publishDate	2002
publishDateSearch	2002
publishDateSort	2002
publisher	Springer
record_format	marc
series	Interdisciplinary applied mathematics
series2	Interdisciplinary applied mathematics Mechanics and materials
spelling	Torquato, Salvatore Verfasser aut Random heterogeneous materials microstructure and macroscopic properties Salvatore Torquato New York [u.a.] Springer 2002 XXI, 701 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Interdisciplinary applied mathematics 16 Mechanics and materials Inhomogenes Medium - Mikrostruktur - Physikalische Eigenschaft Inhomogeneous materials Microstructure Heterogenes System (DE-588)4159737-0 gnd rswk-swf Mikrostruktur (DE-588)4131028-7 gnd rswk-swf Physikalische Eigenschaft (DE-588)4134738-9 gnd rswk-swf Inhomogenes Medium (DE-588)4228459-4 gnd rswk-swf Medium Physik (DE-588)4224991-0 gnd rswk-swf Stochastisches System (DE-588)4057635-8 gnd rswk-swf Inhomogenes Medium (DE-588)4228459-4 s Mikrostruktur (DE-588)4131028-7 s Physikalische Eigenschaft (DE-588)4134738-9 s DE-604 Medium Physik (DE-588)4224991-0 s Heterogenes System (DE-588)4159737-0 s Stochastisches System (DE-588)4057635-8 s 1\p DE-604 Interdisciplinary applied mathematics 16 (DE-604)BV004216726 16 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009563271&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Torquato, Salvatore Random heterogeneous materials microstructure and macroscopic properties Interdisciplinary applied mathematics Inhomogenes Medium - Mikrostruktur - Physikalische Eigenschaft Inhomogeneous materials Microstructure Heterogenes System (DE-588)4159737-0 gnd Mikrostruktur (DE-588)4131028-7 gnd Physikalische Eigenschaft (DE-588)4134738-9 gnd Inhomogenes Medium (DE-588)4228459-4 gnd Medium Physik (DE-588)4224991-0 gnd Stochastisches System (DE-588)4057635-8 gnd
subject_GND	(DE-588)4159737-0 (DE-588)4131028-7 (DE-588)4134738-9 (DE-588)4228459-4 (DE-588)4224991-0 (DE-588)4057635-8
title	Random heterogeneous materials microstructure and macroscopic properties
title_auth	Random heterogeneous materials microstructure and macroscopic properties
title_exact_search	Random heterogeneous materials microstructure and macroscopic properties
title_full	Random heterogeneous materials microstructure and macroscopic properties Salvatore Torquato
title_fullStr	Random heterogeneous materials microstructure and macroscopic properties Salvatore Torquato
title_full_unstemmed	Random heterogeneous materials microstructure and macroscopic properties Salvatore Torquato
title_short	Random heterogeneous materials
title_sort	random heterogeneous materials microstructure and macroscopic properties
title_sub	microstructure and macroscopic properties
topic	Inhomogenes Medium - Mikrostruktur - Physikalische Eigenschaft Inhomogeneous materials Microstructure Heterogenes System (DE-588)4159737-0 gnd Mikrostruktur (DE-588)4131028-7 gnd Physikalische Eigenschaft (DE-588)4134738-9 gnd Inhomogenes Medium (DE-588)4228459-4 gnd Medium Physik (DE-588)4224991-0 gnd Stochastisches System (DE-588)4057635-8 gnd
topic_facet	Inhomogenes Medium - Mikrostruktur - Physikalische Eigenschaft Inhomogeneous materials Microstructure Heterogenes System Mikrostruktur Physikalische Eigenschaft Inhomogenes Medium Medium Physik Stochastisches System
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009563271&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV004216726
work_keys_str_mv	AT torquatosalvatore randomheterogeneousmaterialsmicrostructureandmacroscopicproperties

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