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The Physics of Polymers

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2007-12-10No history Add My version 
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This is a mind map about The Physics of Polymers 
 
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The Physics of Polymers
  Constitution and Architecture of Chains
  Single Chain Conformations
  Rotational Isomeric States
  Helices
  Coils
  The Ideal Chain
  The Expanded Chain
  The Persistent Chain
  The Ising Chain
  Polymer Blends and Block Copolymers
  Mechanical and Dielectric Response
  Conjugated Polymers
  Electrooptic Activity
  Excitons and Free Charges
  Electroluminescence
  Effects of Doping
  Electrical Conductivity
  Magnetism and Reflectivity
  The Semicrystalline State
  Polymer Solutions
  Microscopic Dynamics
  Non-Linear Mechanics
  Deformation, Yielding and Fracture
  Scattering Experiments
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 Scattering Experiments
  Fundamentals
  Basic Equations
  Time-Resolved Scattering Experiments
  Absolute Intensities
  Low Angle Scattering Properties
  Guinier’s Law
  Forward Scattering
  Special Polymer Systems
  Binary Mixtures and Block Copolymers
  Two-Phase Layer Systems
 The Physics of Polymers
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 Deformation, Yielding and Fracture
  Shear Deformation in Semicrystalline Polymers
  Critical Strains
  Constituents of the Drawing Stress
  The Mechanics of Neck Formation
  Fibrillar State of Order
  Crazing
  Brittle Fracture
  Linear Fracture Mechanics
  The Slow Mode of Crack Growth
 The Physics of Polymers
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 Non-Linear Mechanics
  Rubber Elasticity
  The Fixed Junction Model of Ideal Rubbers
  The Cauchy Strain Tensor
  Finger’s Constitutive Equation
  Swelling of Neutral and Electrolytic Gels
  Non-Newtonian Melt Flow
  Rheological Material Functions
  The Lodge Liquid
  The Stress-Optical Rule
 The Physics of Polymers
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 Microscopic Dynamics
  The Fluctuation-Dissipation Theorem
  The Rouse Model
  Stress Relaxation
  The Dielectric Normal Mode
  Entanglement Effects in Polymer Melts
  The Reptation Model
  Solution Viscosities
  Neutral Polymers: Hydrodynamic Interaction
  Polyelectrolytes: Coulomb Interaction
 The Physics of Polymers
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 Mechanical and Dielectric Response
  Response Functions
  Viscoelasticity
  Orientational Polarization
  General Relationships
  Relaxatory Modes
  Single-Time Relaxation Process
  Retardation and Relaxation Time Spectra
  Specific Relaxation Processes and Flow Behavior
  Local Processes
  Glass-Rubber Transition and Melt Flow
  The Glass Transition Temperature
  Relaxation in Partially Crystalline Systems
 The Physics of Polymers
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 The Semicrystalline State
  Structure Characteristics
  Morphological Elements
  Structure Parameters
  Kinetics of Crystallization and Melting
  Laws for the Structure Development
  The Multistage Model
  Mechanisms of Secondary Crystallization
  The Insertion Mode
  Surface Crystallization and Melting
  Crystallization from Oriented Melts
 The Physics of Polymers
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 Polymer Blends and Block Copolymers
  The Flory-Huggins Treatment of Polymer Mixtures
  Phase Diagrams
  Upper Miscibility Gap
  Lower Miscibility Gap
  Phase Separation Mechanisms
  Critical Fluctuations and Spinodal Decomposition
  Critical Scattering
  Decomposition Kinetics
  Block Copolymer Phases
  Layered Structures
  Pretransitional Phenomena
 The Physics of Polymers
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 Polymer Solutions
  Dilute and Semidilute Solutions
  Osmotic Pressure
  Screening of Excluded Volume Forces
  Polyelectrolyte Solutions
  Condensation and Screening of Charges
  Chain Stretching, Salt Effects and Interchain Ordering
  Osmotic Pressure
 The Physics of Polymers