| 507 - 515 |
A rheological theory for liquid crystal thin films
Rey AD |
| 516 - 532 |
Predicting the linear viscoelastic properties of monodisperse and polydisperse polystyrenes and polyethylenes
Pattamaprom C, Larson RG |
| 533 - 537 |
A torsional rheometer with a double slit arrangement suitable for fast gelation
Lechtenfeld M, Michalczyk A, Borchard W |
| 538 - 551 |
Rheology of polymer blends: non-linear model for viscoelastic emulsions undergoing high deformation flows
Bousmina M, Aouina M, Chaudhry B, Guenette R, Bretas RES |
| 552 - 559 |
Characterization of polymer dispersions by Fourier transform rheology
Kallus S, Willenbacher N, Kirsch S, Distler D, Neidhofer T, Wilhelm M, Spiess HW |
| 560 - 569 |
On the rheology of immiscible blends
Grmela M, Bousmina M, Palierne JF |
| 570 - 581 |
A thermodynamic approach to the rheology of highly interactive filler-polymer mixtures: Part I - Theory
Havet G, Isayev AI |
| 582 - 590 |
A structural model for the time-dependent recovery of mineral suspensions
de Kretser RG, Boger DV |
| 591 - 598 |
Viscosity of concentrated noncolloidal bidisperse suspensions
He D, Ekere NN |
| 599 - 602 |
On the Cox-Merz rule for magnetic dispersions
Chae BS, Lane AM, Wiest JM |
