| 199 - 213 |
Determination of the molecular weight distribution of linear polymers by inversion of a blending law on complex viscosities
Leonardi F, Allal A, Marin G |
| 214 - 222 |
Approximate elongation flow properties utilising the opposed orifice technique - Correction for shear and inertia
McGlashan SA, O'Brien VT, Awati KM, Mackay ME |
| 223 - 233 |
Using instrumental inertia in controlled stress rheometry
Baravian C, Quemada D |
| 234 - 244 |
Dynamic shear and compressional behavior of polydimethylsiloxanes: Ultrasonic and low frequency characterization
Verdier C, Longin PY, Piau M |
| 245 - 255 |
Effect of pressure-dependent slip on flow curve multiplicity
Kumar KA, Graham MD |
| 256 - 269 |
Wall slip of mayonnaises in viscometers
Plucinski J, Gupta RK, Chakrabarti S |
| 270 - 278 |
The role of viscoelasticity in polymer sintering
Bellehumeur CT, Kontopoulou M, Vlachopoulos J |
| 279 - 288 |
Rheological characterization of well-defined tetrafluoroethylene/hexafluoropropylene copolymers
Rosenbaum EE, Hatzikiriakos SG, Stewart CW |
| 289 - 298 |
Steady shear viscosity of short fibre suspensions in thermoplastics
Souloumiac B, Vincent M |
| 299 - 305 |
Flow disturbance in polymer melt behind an obstacle
Nguyen-Chung T, Plichta C, Mennig G |
