| 519 - 527 |
Rheo-dielectric behavior of low molecular weight liquid crystals. 1. Behavior of nematic 5CB and 7CB
Watanabe H, Sato T, Hirose M, Osaki K, Yao ML |
| 528 - 548 |
Effect of variations in counterion to surfactant ratio on rheology and microstructures of drag reducing cationic surfactant systems
Lu B, Zheng Y, Davis HT, Scriven LE, Talmon Y, Zakin JL |
| 549 - 555 |
Visualization of the breakdown of dilute particles gels during steady-shear
Folkersma R, van Diemen AJG, Laven J, van der Plas GAJ, Stein HN |
| 556 - 565 |
Experimental and conceptual problems in the rheological characterization of wheat flour doughs
Bagley EB, Dintzis FR, Chakrabarti S |
| 566 - 572 |
Non swirling axisymmetric flow of the omega-D fluid
Brunn PO, Ryssel E |
| 573 - 582 |
Visual observation of development of sharkskin melt fracture in polybutadiene extrusion
Inn YW, Fischer RJ, Shaw MT |
| 583 - 592 |
A numerical study of various rheological polydispersity measures
Steeman PAM |
| 593 - 600 |
Discernment of non-Newtonian behavior in liquids by acoustic means
Takabayashi K, Raichel DR |
| 601 - 613 |
One dimensional simplification in modeling some basic polymer processing operations I. extrudate swell and fiber melt spinning
Choi EJ, Kim SY, Kwon Y |
| 614 - 623 |
Gelation kinetics in elastomer/thermoset polymer blends
Vlassopoulos D, Chira I, Loppinet B, McGrail PT |
| 624 - 634 |
Three-dimensional viscoelastic numerical analysis of the encapsulation phenomena in coextrusion
Takase M, Kihara S, Funatsu K |
| 635 - 635 |
Stress relaxation as a microstructural probe for immiscible polymer blends. (vol 36, pg 513, 1997)
Moldenaers P, Vinckier I, Mewis J |
