The mesoscopic theory of polymer dynamics by V. N. PokrovskiД­

Cover of: The mesoscopic theory of polymer dynamics | V. N. PokrovskiД­

Published by Springer in Dordrecht [Netherlands], New York .

Written in English

Read online

Subjects:

  • Viscoelasticity,
  • Mesoscopic phenomena (Physics),
  • Macromolecules,
  • Polymer solutions

Edition Notes

Includes bibliographical references (p. [241]-252) and index.

Book details

Other titlesPolymer dynamics
StatementVladimir N. Pokrovskiĭ
SeriesSpringer series in chemical physics -- 95, Springer series in chemical physics -- v. 95.
Classifications
LC ClassificationsQD381.9.S65 P63 2010
The Physical Object
Paginationxvii, 256 p. :
Number of Pages256
ID Numbers
Open LibraryOL25059385M
ISBN 109048122309, 9048122317
ISBN 109789048122301, 9789048122318
LC Control Number2009940897
OCLC/WorldCa318871260

Download The mesoscopic theory of polymer dynamics

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The Mesoscopic Theory of Polymer Dynamics (Springer Series in Chemical Physics Book 95) - Kindle edition by Pokrovskii, Vladimir N. Download it once and read it on your Kindle device, PC, phones or tablets.

Use features like bookmarks, note taking and highlighting while reading The Mesoscopic Theory of Polymer Dynamics (Springer Series in Chemical Physics Book 95).Price: $ The Mesoscopic Theory of Polymer Dynamics Vladimir Pokrovskii In this chapter, a system of entangled macromolecules in fluid state, that is a concentrated solution or a melt of polymer, will be.

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The presentation is compact and self-contained. Contains the fundamentals of the theory and gives a picture of the different relaxation phenomena in concentrated solutions and melts of linear polymers from a macromolecular point of view and This monograph is for professional researchers in the fields of rheology, polymer science, and.

The Mesoscopic Theory of Polymer Dynamics Pokrovskii, Vladimir N. Abstract. Not Available Abstract. Not Available. Publication: The Mesoscopic Theory of Polymer Dynamics: Pub Date: DOI: / Bibcode: .P Keywords: Physics; full text by: The Mesoscopic Theory of Polymer Dynamics: Springer Series in Chemical Physics, Volume ISBN Bibliographic Code: .P: Abstract Not Available Bibtex entry for this abstract Preferred format for this abstract (see Preferences).

Mesoscopic physics is a subdiscipline of condensed matter physics that deals with materials of an intermediate length. These materials range in size between the nanoscale for a quantity of atoms (such as a molecule) and of materials measuring micrometres.

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The Mesoscopic Theory of Polymer Dynamics. By Vladimir N Pokrovskii Cite This monograph reconciles different approaches to polymer dynamics and reflects the modern situation in understanding the relaxation behaviour of the polymer systems.

The monograph presents topics in a self-contained way that makes it a suitable reference book for Cited by: Title:The Mesoscopic Theory of Polymer Dynamics (2nd edition) Date Language:English Format: PDF Size MB Description:The theory presented in this book explains in a consistent manner all dynamic effects (diffusion, neutron scattering, viscoelasticity, optical birefringence) observed in very concentrated solutions and melts of linear polymers from a macromolecular point of view.

A polymer (/ ˈ p ɒ l ɪ m ər /; Greek poly- "many" + -mer, "part") is a large molecule, or macromolecule, composed of many repeated subunits.

Due to their broad range of properties, both synthetic and natural polymers play essential and ubiquitous roles in everyday life. Polymers range from familiar synthetic plastics such as polystyrene to natural biopolymers such as DNA and proteins that. A novel approach to the dynamics of dilute solutions of polymer molecules under flow conditions is proposed by applying the rules of mesoscopic nonequilibrium thermodynamics (MNET).

The mesoscopic approach to the description of the dynamics of polymer systems is based on the equations of the macromolecule dynamics which cannot be formulated without additional assumptions, namely: 1) A monomolecular approximation of the by: 1.

The Theory of Polymer Dynamics (Doi). Mesoscopic Theory of Polymer Dynamics book download. Istry North-Holland, Amsterdam, Edwards, Theory of Polymer Dynamics Oxford. (British Polymer Journal) --This text refers to the Paperback edition.

My paper was a 40 pages beast on polymer dynamics theory, modeling and experiment. The application of DQ NMR with MAS to viscous melts even allows one to probe both the conformation of chains on mesoscopic scales as well as translational dynamics.

This is due to the fact that the chain motion in entangled polymer melts is not completely isotropic. We critically review dissipative particle dynamics (DPD) as a mesoscopic simulation method. We have established useful parameter ranges for simulations, and have made a link between these parameters and χ-parameters in Flory-Huggins-type is possible because the equation of state of the DPD fluid is essentially quadratic in density.

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It begins with a review of the main ideas of fluid dynamics as well as key points of Newtonian fluids. Abstract. Dynamics of Materials creates a new interdisciplinary branch, studying the basic law of high-velocity flow/deformation and dynamic failure of materials under dynamic loading such as explosion and impact.

Compared to mechanical problems under quasi-static loads, mechanical problems under dynamic loads must take into considerations of two main dynamic effects, namely the inertia. The Mesoscopic Theory of Polymer Dynamics (Springer Series in Chemical Physics) - Vladimir N.

Pokrovskii; The Mesoscopic Theory of Polymer Dynamics (2nd edition) The Mesoscopic Theory of Polymer Dynamics (2nd edition) [Repost] "The Theory of Permutable Functions" by Vito Volterra. We propose here to investigate the interaction between cis-1,4 polybutadiene polymer chains and a silica surface.

We opt for mesoscopic simulations in order to simulate the polymer chains onto significant length and time scales. We develop realistic coarse-grained (CG) models for this kind of interaction by using a bottom-up approach consisting of developing these effective CG models from.

Phase transition dynamics is centrally important to condensed matter physics. This book treats a wide variety of topics systematically by constructing time-dependent Ginzburg-Landau models for various systems in physics, metallurgy and polymer : Akira Onuki.

A dynamic method to determine the main parameter of the tube theory through monomer mean-square displacement is discussed in this paper. The tube step length can be measured from the intersection of the slope-1 2 line and the slope-1 4 line in log-log plot, and the tube diameter can be obtained by recording the time at which g 1 data start to leave the slope-1 2 regime.

Book Title:Introduction to Mesoscopic Physics (Mesoscopic Physics and Nanotechnology) "Mesoscopic physics" refers to the physics of structures larger than a nanometer (one billionth of a meter) but smaller than a micrometer (one millionth of a meter).

This book provides an ideal introduction to the physics of biopolymers. The structure, dynamics, and properties of biopolymers subjected to various forms of confinement are covered, and special attention is paid to the effect of charge and electrostatic screening (polyelectrolyte effect).

@article{osti_, title = {Size of the Dynamic Bead in Polymers}, author = {Agapov, Alexander L and Sokolov, Alexei P}, abstractNote = {Presented analysis of neutron, mechanical, and MD simulation data available in the literature demonstrates that the dynamic bead size (the smallest subchain that still exhibits the Rouse-like dynamics) in most of the polymers is significantly larger than.

Polymer theory and simulation are topics that are still growing (), highlighting the need for an understanding of microscopic mechanisms influencing material properties of systems containing there is a clear tendency for a growing industrial interest in biodegradable polymers and speciality polymers, many questions related to the behavior of polymeric systems can Author: Martin Kröger.

Kim, Ki Young, Byun, Ki-Taek, and Kwak, Ho-Young. "The Mesoscopic Simulation on the Structures of the Surfactant Solution Using Dissipative Particle Dynamics." Proceedings of the ASME International Mechanical Engineering Congress and Exposition.

Fluids Engineering. Orlando, Florida, USA. November 5–11, pp. : Ki Young Kim, Ki-Taek Byun, Ho-Young Kwak. Nonequilibrium Molecular Dynamics Theory, Algorithms and Applications.

Get access. Advances in nonequilibrium molecular dynamics simulations of lubricants and additives. Friction, Vol. 6, Issue. 4, p. the book covers the themes of temperature and thermodynamic fluxes and their computation, the theory and algorithms for homogenous Cited by: 7.

Single polymer dynamics offers a powerful approach to study molecular-level interactions and dynamic microstructure in materials. Direct visualization of single polymer chains has uncovered new ideas regarding the rheology and nonequilibrium dynamics of macromolecules, including the importance of molecular individualism, dynamic heterogeneity, and molecular subpopulations in governing Cited by: Porapak™ Porous Polymer Adsorbent, Matrix Porapak N, Mesh.

$ Harris 6. Harris 6 Bay Charger Li-i0npolymer. $ From atomistic trajectories to primitive paths to tube models: linking atomistic simulations with the reptation theory of polymer dynamics C.

Baig and V. Mavrantzas, Soft Matter,6, Polymer Dynamics, Rheology, and Flow. Go to: Polymers / DNA / Lipids, Peptides & Surfactants / Microfluidics and Devices / Books and Book Chapters / Top of page M.

Mohammadi, A. Salehi, R.J. Branch, L.J Cygan, C.G. Besirli, and R.G. Larson, ChemPhysChem “Growth Kinetics in Layer-by-Layer Assemblies of Organic Nanoparticles and Polyelectrolytes.”. Equation of State Based Slip Spring Model for Entangled Polymer DynamicsCited by:.

A few general reviews of field-theoretic models of interest to a condensed matter physicist can be found in the Reviews of Modern Physics: J. B. Kogut, "An introduction to lattice gauge theory and spin systems", Rev. Mod. Phys. 51, (); H.

B. Thacker, "Exact integrability in quantum field theory and statistical systems", Rev. Mod. Phys.The book fills a gap between classical theory and modern developments and constructs a consistent picture for the dynamics of polymer solutions over the entire concentration range.

The Mesoscopic Theory Of Polymer Dynamics.This review presents a phase-field model that is generally applicable to homogeneous and heterogeneous systems at the mesoscopic scale. Reviewed first are general aspects about first- and second-order phase transitions that need to be considered to understand the theoretical background of a phase field.

The mesoscopic model equations are defined by a coarse-graining procedure from a Cited by:

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