Archives de l'année précédente
Part I : Phenomenology - Introduction to rheology (Evelyne Van Ruymbeke)
Introduction
Glass, thermosetting and thermoplastic materials
Solutions and melts
Flow properties
Concentrated linear polymers: Diffusion and relaxation times
Time Temperature Superposition (TTS)
Viscoelastic Fluid, stress-strain relationship (linear regime)
Non-linear deformations
- Lecture 1 (28/01/09) : [pdf]
- Lecture 2 (04/02/09) : [pdf]
- Lecture 3 (11/02/09) : [pdf]
- Lecture 4 (18/02/09) : [pdf]
Part II : Continuum mechanics : constitutive macroscopic equations (Vincent Legat)
Upper convective derivative
Steady shear and extensional flows
Transient flows
Linear oscillatory shear flows
Analysis of the cone plate rheometer flow
Objectivity concept
Olroyd-B and Maxwell models
White-Metzner model or the empirical approach
Giesekus and FENE-P equations
- Lecture 5 (25/02/09)
- Lecture 6 (04/03/09)
- Lecture 7 (11/03/09)
- Lecture 8 (01/04/09)
Part III : Polymer Dynamics - Molecular Models (Evelyne Van Ruymbeke)
Diffusion of a small colloidal particle
Diffusion of an unentangled polymer chain
Introduction to tube models
Equilibrium state in a polymer or in a concentrated solution
Relaxation processes in linear chains
Star polymers
Constraint Release Processes
Models of branched polymers
- Lecture 9 (23/04/09) : [pdf]
- Lecture 10 (29-04/09) : [pdf]
Part IV : Micro-macro approches (Adrien Leygue)
- Lecture 11-12 (06/05/09) : [pdf]
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