| 219 - 234 |
Likelihood and expected-time statistics of monodomain attractors in sheared discotic and rod-like nematic polymers
Zheng XY, Forest M, Zhou RH, Wang Q |
| 235 - 243 |
Modeling strain hardening of polydisperse polystyrene melts by molecular stress function theory
Wagner M, Kheirandish S, Koyama K, Nishioka A, Minegishi A, Takahashi T |
| 244 - 249 |
Shear-induced aggregation and break up of fibril clusters close to the percolation concentration
Veerman C, Sagis LMC, Venema P, van der Linden E |
| 250 - 261 |
Transient behavior of Boger fluids under extended shear flow in a cone-and-plate rheometer
Calado VMA, White JM, Muller SJ |
| 262 - 269 |
Comparative yield stress determination for pure and interstratified smectite clays
Laribi S, Fleureau JM, Grossiord JL, Kbir-Ariguib N |
| 270 - 277 |
A general method for obtaining shear stress and normal stress functions from parallel disk rheometry data
Yeow Y, Chandra D, Sardjono AA, Wijaya H, Leong YK, Khan A |
| 278 - 286 |
Enhanced melt strength and stretching of linear low-density polyethylene extruded under strong slip conditions
Guadarrama-Medina TD, Perez-Gonzalez J, de Vargas L |
| 287 - 294 |
Modeling of diffusion through polymeric membranes
Liu Q, Kee D |
| 295 - 312 |
Nonlinear viscoelasticity of PP/PS/SEBS blends
Macaubas PHP, Demarquette NR, Dealy JM |
| 313 - 318 |
Shear induced periodic structure changes in concentrated alumina suspensions at constant shear rate monitored by FBRM
Bagusat F, Bohme B, Schiller P, Mogel HJ |
| 319 - 330 |
A hierarchical algorithm for predicting the linear viscoelastic properties of polymer melts with long-chain branching
Park SJ, Shanbhag S, Larson RG |
