Detailed schedule for part 1

Note new rooms.

Tuesday September 21, 10:15-17:00 (latest)

Lecture 1: Introduction. Flow Phenomena in Non Newtonian Fluids. Viscosity: Generalized Newtonian fluid, shear thinning and thickening. Gustav Amberg

Lecture 2: Linear viscoelasticity. Measurements, rheological parameters. Maxwell and Kelvin models. Gustav Amberg

Lecture 3: Normal stresses, extensional viscosity. Gustav Amberg

Tuesday October 5, 10:15-17:00 (latest)
in room D33

Lecture 4: Foundations of nonlinear Rheological models, Oldroyd time derivatives, constitutive equations. Gustav Amberg

Project 1 Rheology of suspensions. Gunnar Maxe, Arnim Brüger
Project 2 Rheological importance of order and disorder in suspensions. Mattias Chevalier, Jan Pralits

Lecture 5: Rheological models, constitutive equations. Gustav Amberg

Tuesday October 19, 10:15-17:00 (latest)
in room D33

Project 4 Flow through contractions. Torbjörn Nielsen, Ulrike Windecker
Project 7 Contraction flows: predictions from different models. Nulifer Ipek, Jerome Ferrari

Project 5a Drag reduction in turbulent boundary layers I. Jun Shiomi, Kristian Angele
Project 5b Drag reduction in turbulent boundary layers II. Gustav Mårtensson, François Gurniki

Lecture 6: Molecular theories, Dumbbells etc. Gustav Amberg

Tuesday November 2, 10:15-17:00 (latest)
10:15-12:00 in room D33
13:15-15:00 in room D41
15:15-17:00 in room D33

Project 3 Rheology of suspensions of slender fibers. Richard Holm, Claes Holmqvist
Project 9 Delayed die swell. Christophe Duwig, Luca Brandt

Project 8 Mathematical difficulties: Change of type. François Hillion
Project 6 Mathematical difficulties: well-posedness. Mats Larsson, Jens Fransson

Project 10 Numerical (FEM) methods for non-Newtonian flows. Franck Gregoire, Olga Tchernycheva
Project 12 Some own non-Newtonian flow simulations. Johan Gullman-Strand, Jan Östlund.