| 321 - 337 |
Using filament stretching rheometry to predict strand formation and "processability" in adhesives and other non-Newtonian fluids
Tripathi A, Whittingstall P, McKinley GH |
| 338 - 345 |
Rheological behavior of dilute solutions of a side-chain liquid-crystalline polysiloxane in 4,4'-n-octylcyanobiphenyl
Yao N, Jamieson AM |
| 346 - 353 |
Influence of NaClO3 on the rheological behaviour of a micellar solution of CPCl
Cappelaere E, Cressely R |
| 354 - 359 |
Experimental studies on drag reduction and rheology of mixed cationic surfactants with different alkyl chain lengths
Lin ZG, Chou LC, Lu B, Zheng Y, Davis HT, Scriven LE, Talmon Y, Zakin JL |
| 360 - 370 |
Non-symmetric viscoelasticity of anisotropic polymer liquids
Volkov VS, Kulichikhin VG |
| 371 - 378 |
Estimating the viscoelastic moduli of complex fluids using the generalized Stokes-Einstein equation
Mason TG |
| 379 - 383 |
Linearization as a method for determining parameters of relaxation spectra
Malkin AY, Kuznetsov VV |
| 384 - 391 |
The role of the mathematical mean value theorem (MVT) in rheometry: an easy way to convert apparent flow curves into correct ones
Brunn PO, Wunderlich T |
| 392 - 398 |
Processing the capillary viscometry data of fluids with yield stress
Yeow YL, Nguyen YT, Vu TD, Wong HK |
| 399 - 408 |
Yield stress of structured fluids measured by squeeze flow
Meeten GH |
| 409 - 417 |
Oscillatory squeezing flow of a biological material
Phan-Thien N, Nasseri S, Bilston LE |
