The Resource Jamming, yielding, and irreversible deformation in condensed matter, M.C. Miguel, J.M. Rubi (eds.)

Jamming, yielding, and irreversible deformation in condensed matter, M.C. Miguel, J.M. Rubi (eds.)

Label
Jamming, yielding, and irreversible deformation in condensed matter
Title
Jamming, yielding, and irreversible deformation in condensed matter
Statement of responsibility
M.C. Miguel, J.M. Rubi (eds.)
Contributor
Subject
Genre
Language
eng
Cataloging source
QU
Dewey number
530.412
Illustrations
illustrations
Index
index present
LC call number
QC173.45
LC item number
.J36 2006
Literary form
non fiction
Nature of contents
bibliography
Series statement
  • Lecture notes in physics
  • Lecture notes in physics
Series volume
  • 688
  • 688
Label
Jamming, yielding, and irreversible deformation in condensed matter, M.C. Miguel, J.M. Rubi (eds.)
Publication
Note
  • International conference proceedings
  • State of the art report
Bibliography note
Includes bibliographic references and index
http://library.link/vocab/branchCode
  • net
Contents
Machine derived contents note: Introduction 1 -- Yielding and Jamming of Dense Suspensions -- M.E Cates 3 -- 1 Introduction 3 -- 2 Arrest in Colloidal Fluids 4 -- 2.1 Mode Coupling Theory (MCT) 5 -- 3 Yield and Flow of Glasses: Shear Thinning 6 -- 3.1 A Microscopic Approach 6 -- 3.2 Attractive Interactions 9 -- 3.3 Schematic MCT Models 10 -- 4 Shear Thickening and Jamming 11 -- 4.1 Shear Thickening within MCT 11 -- 4.2 Dilatancy and Granulation 13 -- 4.3 Glassy versus Hydrodynamic Thickening 15 -- 5 Static versus Dynamic Yield Stress 15 -- 5.1 Viscosity Bifurcation 16 -- 6 Rheological Instability and Chaos 17 -- 7 Conclusion 18 -- References 19 -- Thermal Noise Properties of Two Aging Materials -- L. Bellon, L. Buisson, M. Ciccotti, S. Ciliberto, F. Douarche 23 -- 1 Introduction 23 -- 2 Dielectric Noise in a Polymer Glass 25 -- 2.1 Experimental Setup 25 -- 2.2 Response and Noise Measurements 27 -- 2.3 Statistical Analysis of the Noise 31 -- 2.4 Influence of the Quench Speed 33 -- 2.5 Teff after a Slow Quench 34 -- 3 Mechanical Measurements on a Polycarbonate Cantilever 35 -- 3.1 FDT in a Mechanical Oscillator 36 -- 3.2 Experimental Apparatus 38 -- 3.3 Experimental Results 39 -- 4 Thermal Noise in a Colloidal Glass 40 -- 4.1 Experim ental Setup 41 -- 4.2 Electric Noise Measurements in Laponite 42 -- 4.3 Influence of Concentration 45 -- 4.4 Mechanical Noise on Laponite 45 -- 5 Discussion and Conclusions 46 -- References 50 -- Jamming in Dense Granular Media -- A. Coniglio, A. Fierro, A. de Candia, M. Nicodemi, -- M . Tarzia, M . Pica Ciamarra 53 -- 1 Introduction 53 -- 2 Statistical Mechanics of Dense Granular Materials 55 -- 3 Monodisperse Hard Sphere Model for Granular Materials 56 -- 4 Stationary States and Time Averages 57 -- 5 Ensemble Averages 59 -- 6 Mean Field Solution in the Bethe-Peierls Approximation 60 -- 7 Hard Spheres with an Internal Degree of Freedom 62 -- 8 Conclusions 66 -- References 67 -- Rheological Aspects of the Solid-Liquid Transition -- in Jammed Systems -- P. Coussot 69 -- 1 Introduction 69 -- 2 The Usual Concept of Yield Stress Fluids 70 -- 2.1 Yielding 70 -- 2.2 Thixotropy 72 -- 2.3 Flow Characteristics of Simple Yield Stress Fluids 73 -- 3 Rheological Behavior of Jammed Systems from Local Rheometry 76 -- 3.1 Flow Characteristics at the Solid-liquid Transition -- and Shear-banding 76 -- 3.2 Consequences in Rheometry 79 -- 3.3 Extreme Shear Localization 80 -- 4 The Solid-liquid Transition in Jammed Systems: -- A Dynamic Phenomenon 83 -- 4.1 Yielding and Thixotropy 83 -- 4.2 From Plasticity to Liquid Flow with Increase -- in Degree of Jamming 86 -- 5 Conclusion 88 -- References 88 -- Dynamics of Disordered Elastic Systems -- T. Giamarchi, A.B. Kolton, A. Rosso 91 -- 1 Introduction 91 -- 2 Basic Concepts 93 -- 3 Creep, Phenomenology 96 -- 4 Around Four Dimensions 98 -- 5 Low Dimensional Situation: Domain Walls 101 -- 6 Conclusions and Open Questions 106 -- References 107 -- Edge Contamination Effects in the Dynamics -- of Vortex Matter in Superconductors: Memory Effects -- and Excess Flux-flow Noise -- G. Jung, Y. Paltiel, E. Zeldov, Y. Myasoedov, M.L. Rappaport, -- M.J. Higgins, S. Bhattacharya 109 -- 1 Introduction: Vortex M atter 110 -- 2 Edge Contamination 111 -- 2.1 Critical Current in the Edge Contamination Model 112 -- 2.2 Strip and Corbino Configuration 113 -- 3 Memory Effects, Dynamical Instabilities and Edge Contamination . 115 -- 4 Low Frequency Noise 118 -- 4.1 Simplified Model of the Noise 119 -- 4.2 Experimental Results 120 -- 4.3 Velocity vs. Density Fluctuations 123 -- 5 Conclusions 125 -- References 126 -- Out-of-equilibrium Relaxation -- of a Time-dependent Effective Temperature -- A. Lemaitre 129 -- 1 Assumptions and Constitutive Equations 129 -- 2 Out-of-equilibrium Relaxation 131 -- 3 Conclusion 135 -- References 136 -- Depinning and Plasticity of Driven Disordered Lattices -- M .C. M archetti 137 -- 1 Introduction 137 -- 2 Depinning of Noninteracting Particles 139 -- 3 Depinning of an Extended Medium 142 -- 3.1 Elastic Model 143 -- 3.2 Viscoelastic Model 144 -- 3.3 Viscoelastic Coupling as an Effective Description -- of Topological Defects 145 -- 4 Mean-field Solution 147 -- 4.1 Mean-field Theory for Viscous Model: K = 0, 1 r 0 148 -- 4.2 Mean-field Theory for VE Model: K $ 0 and trl 0 150 -- 5 Relationship to Other Models and to Experiments 152 -- References 155 -- Mixing, Ergodicity and the Fluctuation-Dissipation Theorem -- in Complex Systems -- M.H. Vainstein, I. V.L. Costa, F.A: Oliveira 159 -- 1 Introduction 159 -- 2 Diffusion 161 -- 3 Reaction Rates 164 -- 4 Complex Systems have Memory 166 -- 5 Random Walk 168 -- 6 Noise 170 -- 7 Reversibility and Correlation Functions 171 -- 8 Mixing, Ergodicity, and the Fluctuation-Dissipation Theorem 174 -- 9 Ballistic Motion 176 -- 10 Shape of Things to Come 178 -- 11 Spatio-temporal Conjecture for Disordered System 179 -- 12 Conclusion 179 -- References 181 -- Jamming and Yielding of Dislocations: from Crystal -- Plasticity to Superconducting Vortex Flow -- S. Zapperi, M. C. Miguel, P. Moretti, M. Zaiser 189 -- 1 Introduction 189 -- 2 Dislocations 191 -- 2.1 Crystal Dislocations 191 -- 2.2 Vortex Lattice 191 -- 3 Experimental Background 192 -- 3.1 Acoustic Emission and Dislocation Avalanches 192 -- 3.2 Andrade Creep 193 -- 3.3 Solid Solution Hardening 193 -- 3.4 Plasticity in Vortex M atter 194 -- 4 Jamming and Yielding in Crystal Plasticity 194 -- 4.1 Two Dimensional Model of Interacting Dislocations 194 -- 4.2 Dislocation Jamming and Andrade Creep 195 -- 4.3 Dislocation Avalanches 196 -- 5 Plastic Yielding in the Vortex Lattice 197 -- 6 Depinning of Dislocation Systems 199 -- 6.1 Isolated Dislocations 199 -- 6.2 Pileup and Low Angle Grain Boundaries 200 -- 6.3 Zener Pinning in Grain Growth 201 -- 7 Conclusions 203 -- References 203
Control code
000040290230
Dimensions
25 cm
Extent
xiii, 209 p.
Isbn
9783540300281
Lccn
2005937150
Other physical details
ill.
http://library.link/vocab/recordID
.b24062790
System control number
  • (OCoLC)64571986
  • springer3540300287

Library Locations

    • Deakin University Library - Geelong Waurn Ponds CampusBorrow it
      75 Pigdons Road, Waurn Ponds, Victoria, 3216, AU
      -38.195656 144.304955
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