Non-equilibrium soft matter physics [[electronic resource] /] / editors, Shigeyuki Komura, Takao Ohta |
Pubbl/distr/stampa | Singapore, : World Scientific Pub. Co., 2012 |
Descrizione fisica | 1 online resource (435 p.) |
Disciplina | 530.41 |
Altri autori (Persone) |
KomuraShigeyuki
OhtaTakao |
Collana | Series in soft condensed matter |
Soggetto topico |
Condensed matter
Equilibrium |
Soggetto genere / forma | Electronic books. |
ISBN |
1-280-66957-8
9786613646507 981-4360-63-5 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Foreword; 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
4.2. 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 Appendix 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 3.2.4. 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 A.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 4.2. Theoretical derivation of static shear modulus |
Record Nr. | UNINA-9910451612503321 |
Singapore, : World Scientific Pub. Co., 2012 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Non-equilibrium soft matter physics [[electronic resource] /] / editors, Shigeyuki Komura, Takao Ohta |
Pubbl/distr/stampa | Singapore, : World Scientific Pub. Co., 2012 |
Descrizione fisica | 1 online resource (435 p.) |
Disciplina | 530.41 |
Altri autori (Persone) |
KomuraShigeyuki
OhtaTakao |
Collana | Series in soft condensed matter |
Soggetto topico |
Condensed matter
Equilibrium |
ISBN |
1-280-66957-8
9786613646507 981-4360-63-5 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Foreword; 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
4.2. 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 Appendix 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 3.2.4. 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 A.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 4.2. Theoretical derivation of static shear modulus |
Record Nr. | UNINA-9910779010503321 |
Singapore, : World Scientific Pub. Co., 2012 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Non-equilibrium soft matter physics / / editors, Shigeyuki Komura, Takao Ohta |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Singapore, : World Scientific Pub. Co., 2012 |
Descrizione fisica | 1 online resource (435 p.) |
Disciplina | 530.41 |
Altri autori (Persone) |
KomuraShigeyuki
OhtaTakao |
Collana | Series in soft condensed matter |
Soggetto topico |
Condensed matter
Equilibrium |
ISBN |
1-280-66957-8
9786613646507 981-4360-63-5 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Foreword; 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
4.2. 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 Appendix 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 3.2.4. 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 A.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 4.2. Theoretical derivation of static shear modulus |
Record Nr. | UNINA-9910824982903321 |
Singapore, : World Scientific Pub. Co., 2012 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|