| 1 - 6 |
Nonlinear rheology and flow-induced structure in a concentrated spherical silica suspension
Watanabe H, Yao ML, Osaki K, Shikata T, Niwa H, Morishima Y, Balsara NP, Wang H |
| 7 - 20 |
Influence of molecular structure on rheological properties of polyethylenes I. Creep recovery measurements in shear
Gabriel C, Kaschta J, Munstedt H |
| 21 - 29 |
Influence of molecular structure on rheological properties of polyethylenes Part II. Elongational behavior
Munstedt H, Kurzbeck S, Egersdorfer L |
| 30 - 45 |
Microstructure constitutive equation for discotic nematic liquid crystalline materials Part I: Selection procedure and shear flow predictions
Singh AP, Rey AD |
| 46 - 53 |
Molecular orientation, "Region I" shear thinning and the cholesteric phase in aqueous hydroxypropylcellulose under shear
Hongladarom K, Burghardt WR |
| 54 - 60 |
Phase structure change and ER effect in liquid crystalline polymer/dimethylsiloxane blends
Kimura H, Aikawa K, Masubuchi Y, Takimoto J, Koyama K, Minagawa K |
| 61 - 67 |
Linear stability diagrams for the shear flow of an Oldroyd-B fluid with slip along the fixed wall
Fyrillas MM, Georgiou GC |
| 68 - 72 |
Exact solution for compressive flow of viscoplastic fluids under perfect slip wall boundary conditions
Yang F |
| 73 - 88 |
A numerical method for steady and nonisothermal viscoelastic fluid flow for high Deborah and Peclet numbers
Wapperom P, Hulsen MA, van der Zanden JPPM |
| 89 - 96 |
Rheological probing of structure and pigment-resin interactions in magnetic paints
Potanin AA, Shrauti SM, Arnold DW, Lane AM |
