| 193 - 204 |
Reological behaviour of concentrated monodisperse suspensions as a function of preshear conditions and temperature: an experimental study
Schmidt M, Munstedt H |
| 205 - 210 |
On the elastic properties of model suspensions as investigated by creep recovery measurement in shear
Schmidt M, Munstedt H |
| 211 - 222 |
Dynamics and rheology of the morphology of immiscible polymer blends - on modeling and simulation
Roths T, Friedrich C, Marth M, Honerkamp J |
| 223 - 231 |
Mathematical characteristics of the pom-pom model
Lee JW, Kim D, Kwon Y |
| 232 - 244 |
Influence of long-chain branches in polyethylenes on linear viscoelastic flow properties in shear
Gabriel C, Munstedt H |
| 245 - 256 |
An evaluation of a squeeze flow rheometer for the rheological characterization of a filled polymer with a yield stress
Chan TW, Baird DG |
| 257 - 264 |
Evaluation by means of stress relaxation (after a step strain) experiments of the viscoelastic behavior of polymer melts in uniaxial extension
Barroso VC, Maia JM |
| 265 - 275 |
Field-induced gelation, yield stress, and fragility of an electro-rheological suspension
Chin BD, Winter HH |
| 276 - 284 |
Heat-induces gelation of globular proteins. Part 5. Creep behaviour of beta-lactoglobulin gels
Kavanagh GM, Clark AH, Ross-Murphy SB |
| 285 - 285 |
On the definition of internal energy in thermostatics
Lodge AS |
| 286 - 287 |
On the definition of internal energy in thermostatics -Response
Jongschaap RJJ |
