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200 00$aNon-equilibrium soft matter physics$b[electronic resource] /$feditors, Shigeyuki Komura, Takao Ohta
210   $aSingapore $cWorld Scientific Pub. Co.$d2012
215   $a1 online resource (435 p.)
225 1 $aSeries in soft condensed matter,$x1793-737X ;$vv. 4
300   $aDescription based upon print version of record.
311   $a981-4360-62-7 
320   $aIncludes bibliographical references and index.
327   $aForeword; Preface; Contents; 1. Onsager's Variational Principle in Soft Matter Dynamics M. Doi; 1. Introduction; 2. Particle Motion in Viscous Fluid; 2.1. Stokesian hydrodynamics; 2.2. Hydrodynamic reciprocal relation; 2.3. Hydrodynamic variational principle; 3. Onsager's Variational Principle; 3.1. Onsager's kinetic equation; 3.2. Validity of the variational principle; 3.3. Merit of the variational principle; 3.4. Reciprocal relation in the kinetic equation; 3.5. Forces needed to controll the state variables; 4. Brownian Motion; 4.1. Diffusion equation
327   $a4.2. Reciprocal relation in the diffusion equation 4.3. Forces acting on the semi-permeable membrane; 5. Rotational Brownian Motion; 5.1. State variables of a rod-like particle; 5.2. Diffusion equation for  ( ,  ); 5.3. Diffusion equation for  (u); 5.4. Diffusion equation in flow field; 5.5. Expression for the stress tensor; 6. Coupling between Diffusion and Flow; 6.1. Diffusion in concentrated solutions; 6.2. Coupling between solute diffusion and solution flow; 6.3. Phase separation; 7. Gel Dynamics; 8. Liquid Crystals; 9. Conclusion; Acknowledgments
327   $aAppendix A. Proof of the Hydrodynamic Reciprocal Relation References; 2. Rheo-Dielectric Behavior of Soft Matters H. Watanabe, Y. Matsumiya, K. Horio, Y. Masubuchi and T. Uneyama; 1. Introduction; 2. Basics of Dielectric Relaxation; 2.1. Instrumentation; 2.2. Phenomenological framework; 2.3. Molecular expression of  (t); 3. Rheo-Dielectric Behavior of Polymers; 3.1. Glassy relaxation and rubbery relaxation; 3.2. Rheo-dielectric behavior of entangled chain; 3.2.1. Overview; 3.2.2. Flow-induced equilibration of entanglement segments; 3.2.3. Mutual equilibration number of entanglement segments
327   $a3.2.4. Lack of flow-induced dielectric acceleration for linear chain 4. Rheo-Dielectric Behavior of Liquid Crystalline Materials; 4.1. Rheo-dielectric behavior of nematic 7CB; 4.2. Rheo-dielectric behavior of smectic 8CB; 5. Rheo-Dielectric Behavior of Salt/PEO Composite Systems; 5.1. Overview of rheo-dielectric behavior of LiClO4/PEO System; 5.2. Flow-induced enhancement of Li+ mobility; 6. Rheo-Dielectric Behavior of Carbon Black Suspensions; 7. Concluding Remarks; Acknowledgment; Appendix A. Rheo-Dielectric Telaxation Function of Type A Chain; A.1. General; A.2. Analysis under steady shear
327   $aA.3. Analysis under LAOS Appendix B. Macdonald Theory for Electrode Polarization; References; 3. Morphology and Rheology of Immiscible Polymer Blends in Electric and Shear Flow Fields H. Orihara; 1. Introduction; 2. Experimental System for Observing Three-Dimensional Structures; 3. Droplet Coalescence Process Under Electric Fields; 3.1. 3D observation of coalescence process; 3.2. Scaling property and hierarchical model; 4. Shear Modulus of Columnar Structure Formed in an Immiscible Polymer Blend Under Electric Fields; 4.1. 3D observation of columnar structure and shear modulus
327   $a4.2. Theoretical derivation of static shear modulus
330   $aSoft matter is a concept which covers polymers, liquid crystals, colloids, amphiphilic molecules, glasses, granular and biological materials. One of the fundamental characteristic features of soft matter is that it exhibits various mesoscopic structures originating from a large number of internal degrees of freedom of each molecule. Due to such intermediate structures, soft matter can easily be brought into non-equilibrium states and cause non-linear responses by imposing external fields such as an electric field, a mechanical stress or a shear flow. Volume 4 of the series in Soft Condensed Ma
410  0$aSeries in soft condensed matter ;$vv. 4.
606   $aCondensed matter
606   $aEquilibrium
615  0$aCondensed matter.
615  0$aEquilibrium.
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