Models for Polymeric andAnisotropic Liquids
Kröger, Martin.
Models for Polymeric andAnisotropic Liquids [electronic resource] / by Martin Kröger. - XIV, 234 p. 77 illus. online resource. - Lecture Notes in Physics, 675 0075-8450 ; . - Lecture Notes in Physics, 675 .
Simpler Models for Polymeric Liquids Far from Equilibrium -- Dumbbell Model for Dilute and Semi-Dilute Solutions -- Chain Model for Dilute Solutions -- Chain Model for Concentrated Solutions and Melts -- Chain Models for Transient and Semiflexible Structures -- Primitive Path Models -- Elongated Particle Models.
Models should be as simple as possible, but no simpler. For the physics of polymeric liquids, whose relevant lengths and time scales are out of reach for first principles calculations, this means that we have to choose a minimum set of sufficiently detailed descriptors such as architecture (linear, ring, branched), connectivity, semiflexibility, stretchability, excluded volume, and hydrodynamic interaction. These 'universal' fluids allow the prediction of material properties under external flow- or electrodynamic fields, the results being expressed in terms of reference units, specific for any particular chosen material. This book provides an introduction to the kinetic theory and computer simulation methods needed to handle these models and to interpret the results. Also included are a number of sample applications and computer codes.
9783540315193
10.1007/b105182 doi
Polymers.
Mechanics.
Mechanics, Applied.
Soft and Granular Matter, Complex Fluids and Microfluidics.
Polymer Sciences.
Classical and Continuum Physics.
Numerical and Computational Physics, Simulation.
Solid Mechanics.
QC176.8.A44
530.41
Models for Polymeric andAnisotropic Liquids [electronic resource] / by Martin Kröger. - XIV, 234 p. 77 illus. online resource. - Lecture Notes in Physics, 675 0075-8450 ; . - Lecture Notes in Physics, 675 .
Simpler Models for Polymeric Liquids Far from Equilibrium -- Dumbbell Model for Dilute and Semi-Dilute Solutions -- Chain Model for Dilute Solutions -- Chain Model for Concentrated Solutions and Melts -- Chain Models for Transient and Semiflexible Structures -- Primitive Path Models -- Elongated Particle Models.
Models should be as simple as possible, but no simpler. For the physics of polymeric liquids, whose relevant lengths and time scales are out of reach for first principles calculations, this means that we have to choose a minimum set of sufficiently detailed descriptors such as architecture (linear, ring, branched), connectivity, semiflexibility, stretchability, excluded volume, and hydrodynamic interaction. These 'universal' fluids allow the prediction of material properties under external flow- or electrodynamic fields, the results being expressed in terms of reference units, specific for any particular chosen material. This book provides an introduction to the kinetic theory and computer simulation methods needed to handle these models and to interpret the results. Also included are a number of sample applications and computer codes.
9783540315193
10.1007/b105182 doi
Polymers.
Mechanics.
Mechanics, Applied.
Soft and Granular Matter, Complex Fluids and Microfluidics.
Polymer Sciences.
Classical and Continuum Physics.
Numerical and Computational Physics, Simulation.
Solid Mechanics.
QC176.8.A44
530.41