| 1 - 12 |
Human blood shear yield stress and its hematocrit dependence
Picart C, Piau JM, Galliard H, Carpentier P |
| 13 - 19 |
Electrical conductivity of flowing polyaniline suspensions
Quadrat O, Stejskal J |
| 21 - 39 |
Rheology of bidisperse aqueous silica suspensions : A new scaling method for the bidisperse viscosity
Zaman AA, Moudgil BM |
| 41 - 62 |
Relationships between rheology and morphology for immiscible molten blends of polypropylene and ethylene copolymers under shear flow
Lacroix C, Grmela M, Carreau PJ |
| 63 - 80 |
Wall slip and absence of interfacial flow instabilities in capillary flow of various polymer melts
Yang XP, Ishida H, Wang SQ |
| 81 - 110 |
Molecular constitutive equations for a class of branched polymers : The pom-pom polymer
McLeish TCB, Larson RG |
| 111 - 123 |
Explanations for the cause of shear thickening in concentrated colloidal suspensions
Hoffman RL |
| 125 - 157 |
The experimental observation and modeling of an "Ovaici" necklace and stick-spurt instability arising during the cold extrusion of chocolate
Ovaici H, Mackley MR, McKinley GH, Crook SJ |
| 159 - 176 |
The effects of adsorbed layers and solution polymer on the viscosity of dispersions containing associative polymers
Pham QT, Russel WB, Lau W |
| 177 - 201 |
A closure approximation for liquid-crystalline polymer models based on parametric density estimation
Chaubal CV, Leal LG |
| 203 - 213 |
Particle suspensions in liquid crystalline media : Rheology, structure, and dynamic interactions
Sequeira V, Hill DA |
| 215 - 217 |
Intrinsic dynamic viscosity obtained without phase angle data
Manke CW, Williams MC |
| 219 - 220 |
Letter to the Editor : Comment on "Full tensor optical rheometry of polymer fluids" [J. Rheol. 41, 343-364 (1997)]
Janeschitz-Kriegl H |
