The Fractal Physical Chemistry of Polymer Solutions and Melts
Coordonnateurs : Kozlov G. V., Doblin I. V., Zaikov Gennady E.
This book provides an important structural analysis of polymer solutions and melts, using fractal analysis. The book covers the theoretical fundamentals of macromolecules fractal analysis. It then goes on to discuss the fractal physics of polymer solutions and the fractal physics of melts. The intended audience of the book includes specialists in chemistry and physics of polymer synthesis and those in the field of polymers and polymer composites processing.
Introduction. The Theoretical Fundamentals of Macromolecules Fractal Analysis. Fractal Characterization of Polymer Melts. The Viscosity of Polymer Nanocomposites Melt. The Structural Model of Polymers Synthesis Reactions in Melt. Index.
Date de parution : 03-2021
15.2x22.9 cm
Date de parution : 12-2013
15.2x22.9 cm
Thèmes de The Fractal Physical Chemistry of Polymer Solutions and... :
Mots-clés :
Macromolecular Coil; Fractal Dimension; Fractal Physics of Polymer Solutions; MWD Curve; The Fractal Analysis of Polymer Melts; Kuhn Segment Length; Fractal Characterization of Polymer Melts; Nanofi Ller; The Thermodynamics of Polymers Dissolution; Fractal Dimension Df; Fractal Variant of the Mark-Kuhn-Houwink Equation; Dependence Df; Df Value; Nanocomposites PP; Polymer Melts Viscosity; Solubility Parameter; Nanofiller Mass Contents Wn; Melt Viscosity; Interactions Polymer Solvent; Irreversible Aggregation Models; Rigid Chain Polymers; Gyration Radius; Gyration Radius Rg; Polymers Amorphous State Structure; Intrinsic Viscosity; Thermooxidative Degradation; Branching Degree; Reaction Rate Constant Kr; Df Reduction; Branched Polymers