| 491 - 499 |
Rheological studies of concentrated guar gum
Oblonsek M, Sostar-Turk S, Lapasin R |
| 500 - 515 |
Rheological constitutive equation of solids: a link between models based on irreversible thermodynamics and on fractional order derivative equations
Andre S, Meshaka Y, Cunat C |
| 516 - 526 |
Viscosity enhancement in non-Newtonian flow of dilute polymer solutions through crystallographic porous media
Haward SJ, Odell JA |
| 527 - 533 |
Pressure-driven startup flows of liquid crystalline polymers through slit cells
Mori N, Shindo M, Nakamura K, Yamamoto T |
| 534 - 543 |
A new method to determine viscosity of liquids using vibration principles
Mert B, Sumali H, Campanella OH |
| 544 - 556 |
Comparison of the melt fracture behavior of metallocene and conventional polyethylenes
Doerpinghaus PJ, Baird DG |
| 557 - 568 |
Interrelation of creep and relaxation for nonlinearly viscoelastic materials: application to ligament and metal
Oza A, Vanderby R, Lakes RS |
| 569 - 577 |
Orientation behavior of AB and ABC block copolymers under large amplitude oscillatory shear flow
Stangler S, Abetz V |
| 578 - 584 |
Hexagonal defect array formed under steady shear flow in water-in-cholesteric liquid crystal emulsions
Yada M, Fukuda J, Yamamoto J, Yokoyama H |
| 585 - 589 |
Shear response of monodomains of flow-aligning nematic liquid crystals: TIF model comparisons and effect of pre-tilt
Van Horn BL, Boudreau DM, Winter HH |
| 590 - 604 |
Transient rheology of discotic mesophases
Grecov D, Rey AD |
