| 689 - 700 |
Determining polymer molecular weight distributions from rheological properties using the dual-constraint model
Pattamaprom C, Larson RG, Sirivat A |
| 701 - 717 |
Effects of polymer-fiber interactions on rheology and flow behavior of suspensions of semi-flexible fibers in polymeric liquids
Rajabian M, Dubois C, Grmela M, Carreau PJ |
| 719 - 725 |
A physical decomposition of the stress tensor for complex flows
Bollada PC, Phillips TN |
| 727 - 737 |
The study of the mechanical impedance of foods and biomaterials to characterize their linear viscoelastic behavior at high frequencies
Mert B, Campanella OH |
| 739 - 749 |
Bread dough rheology in biaxial and step-shear deformations
Tanner RI, Dai SC, Qi FZ |
| 751 - 763 |
Rheological properties of polyacrylates used as synthetic road binders
Airey GD, Mohammed MH |
| 765 - 776 |
Non-linear viscoelastic properties of ordered phases of a poly(ethylene oxide)-poly(propylene oxide) triblock copolymer
Habas JP, Pavie E, Lapp A, Peyrelasse J |
| 777 - 786 |
Isothermal viscoelastic properties of PMMA and LDPE over 11 decades of frequency and time: a test of time-temperature superposition
Capodagli J, Lakes R |
| 787 - 796 |
Preparation of well-dispersed magnetorheological fluids and effect of dispersion on their magnetorheological properties
Lopez-Lopez MT, Kuzhir P, Bossis G, Mingalyov P |
| 797 - 805 |
Shear and normal stress relaxation in polymer blends: stress predictions from interface velocity and Laplace pressure terms
Okamoto K, Takahashi M |
| 807 - 820 |
Flow-diffusion interface interaction in blends of immiscible polymers
El Afif A |
| 821 - 834 |
The effect of viscoelasticity on stress fields within polyethylene melt flow for a cross-slot and contraction-expansion slit geometry
Hassell DG, Auhl D, McLeish TCB, Mackley MR |
| 835 - 839 |
Particle-stabilized polymer blends
Vermant J, Vandebril S, Dewitte C, Moldenaers P |
