Kinetics of aggregation and gelation : proceedings of the International Topical Conference on Kinetics of Aggregation and Gelation, April 2-4, 1984, Athens, Georgia, U.S.A. /

Kinetics of Aggregation and Gelation.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor Corporativo: International Topical Conference on Kinetics of Aggregation and Gelation Athens, Ga.
Otros Autores: Family, Fereydoon, Landau, David P.
Formato: Electrónico Congresos, conferencias eBook
Idioma:Inglés
Publicado: Oxford : Elsevier Science, 1984.
Temas:
Colloids > Congresses.
Aggregation (Chemistry) > Congresses.
Gelation > Congresses.
Agr�egation (Chimie) > Congr�es.
G�elification > Congr�es.
SCIENCE > Chemistry > Physical & Theoretical.
Aggregation (Chemistry)
Colloids
Gelation
Congress
proceedings (reports)
Conference papers and proceedings
Conference papers and proceedings.
Actes de congr�es.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Kinetics of Aggregation and Gelation; Copyright Page; Preface; Table of Contents; Program; Oral Presentations; Posters; List of Participants; Chapter 1. Fractal Concepts in Aggregation and Gelation: An Introduction; 1. FRACTAL DIMENSION OF ENTIRE CLUSTERAND THE FIELD SCALING POWER; 2. FRACTAL DIMENSION OF RED BONDSAND THE THERMAL SCALING POWER (""LINKS""); 3. FRACTAL DIMENSION OF THE BACKBONE; 4. FRACTAL DIMENSION OF A RANDOM WALK; 5. FRACTAL DIMENSION OF GROWTH SITES:THE ""ORDER PARAMETER"" OF DYNAMICS?; 6. THE FRACTAL DIMENSON OF THECHEMICAL (""MINIMUM"") PATH.
  • 7. FRACTAL DIMENSION OF THE ELASTIC BACKBONE8. FRACTAL DIMENSION OF THE UNSCREENED PERIMETER; 9. SUMMARY AND OUTLOOK; Chapter 2. On the Aggregative Fractals Called ""Squigs"", which Include Recursive Models of Polymers and of Percolation Clusters; 1. INTRODUCTION; 2. SQUIG TREES AND INTERVALS, AND MODELINGOF POLYMERS (1, 2, 3); 3. SQUIG CLUSTERS AND MODELING OF PERCOLATION(4, 5, 6); ACKNOWLEDGMENTS; REFERENCES; Chapter 3. On 2d Percolation Clusters and on Multi
  • particle Fractal Aggregation; 1. PERCOLATION CLUSTERS AND BACKBONES; 2. MULTI-PARTICLE FRACTAL AGGREGATION; REFERENCES.
  • Chapter 4. Theory of Fractal Growth Processes1. INTRODUCTION; 2. INSTABILITY ANALYSIS; 3. CONTINUUM THEORIES; ACKNOWLEDGEMENTS; REFERENCES; Chapter 5. Self-similar Structures and the Kinetics of Aggregationof Gold Colloids; 1. INTRODUCTION; 2 . GOLD COLLOIDS; 3 . STRUCTURAL ANALYSIS; 4 . DISCUSSION; 5. KINETICS; 6. CONCLUSIONS; ACKNOWLEDGEMENTS; REFERENCES; Chapter 6. Electrostatic Aggregation and Interface Dynamics; 1. Introduction.; 2. Moving boundary value problem and interfacedynamics.; 3. Dynamics of conformal singularities.; 4. Mullins-Sekerka instability and cusps in theinterface.
  • 5. Conclusions. Acknowledgements.; References.; Chapter 7. Properties of the Growing Interface in Diffusion-Limited Aggregation and in the Eden Process; REFERENCES; Chapter 8. Addition Polymerization and Related Models; REFERENCES; Chapter 9. Oscillations and Scaling in a Kinetic Gelation Model; INTRODUCTION; THE MODEL & ALGORITHM; RESULTS; SCALING; CONCLUSION; REFERENCES; Chapter 10. Kinetic Gelation with a Constant Initiator Creation Rate; 1. INTRODUCTION; 2. MODEL AND METHOD; 3. RESULTS AND DISCUSSION; REFERENCES; Chapter 11. The Kinetic Growth Walk: A New Model of Linear Polymers.
  • 1. INTRODUCTION2. MODEL; 3. NUMERICAL RESULTS; 4. SELF CONSISTENT THEORY FOR GENERALIZED KGW.; 5. CONCLUSIONS; ACKNOWLEDGEMENTS; REFERENCES; Chapter 12. Measuring Red Cell Aggregation Kinetics with Nuclear Magnetic Resonance; 1. INTRODUCTION; 2. WATER TRANSPORT MEASUREMENT BY NMR; 3. THEORY; 4. METHOD; 5. EXPERIMENTAL; 6. Results; 7. Discussion; 8. Conclusion; ACKNOWLEDGEMENT; REFERENCES; Chapter 13. Monte Carlo Simulation of Vulcanization; Chapter 14. Cluster Numbers From the Potts Model; 1. INTRODUCTION; 2. CALCULATION OF CLUSTER NUMBER; 3. DISCUSSION AND CONCLUSIONS; ACKNOWLEDGMENTS.

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