| 1 - 11 |
On a Self-Consistent Molecular Modeling of Linear Relaxation Phenomena in Polymer Melts and Concentrated-Solutions
Leonov AI |
| 13 - 30 |
Transient Rheological Behavior of a Thermotropic Liquid-Crystalline Polymer .2. Intermittent Shear-Flow and Evolution of Dynamic Moduli After Cessation of Shear-Flow
Han CD, Kim SS |
| 31 - 40 |
Transient Rheological Behavior of a Thermotropic Liquid-Crystalline Polymer .3. Step Strain Experiment and Shear-Stress Relaxation Modulus
Han CD, Kim SS |
| 41 - 51 |
The Effect of Metals on the Processing of LLDPE Through a Slit Die
Halley PJ, Mackay ME |
| 53 - 71 |
Steady Flows of Viscoelastic Fluids in Axisymmetrical Abrupt Contraction Geometry - A Comparison of Numerical Results
Bernstein B, Feigl KA, Olsen ET |
| 73 - 83 |
Measurement of the Orientational Binding of Counterions by Nuclear-Magnetic-Resonance Measurements to Predict Drag Reduction in Cationic Surfactant Micelle Solutions
Smith BC, Chou LC, Zakin JL |
| 85 - 98 |
Effect of Particle-Size Distributions on the Rheology of Concentrated Bimodal Suspensions
Chang CY, Powell RL |
| 99 - 109 |
Modeling Polymer Melt-Flow Instabilities
Molenaar J, Koopmans RJ |
| 111 - 127 |
Laminar and Drag-Reduced Polymeric Foam Flow
Winkler W, Valko P, Economides MJ |
| 129 - 139 |
On Waves of Particulate Phase Pressure in Granular-Materials
Ocone R, Astarita G |
| 141 - 150 |
Axial-Flow Through a Narrow Annulus .1. The Kinetic-Energy Correction
Krieger IM, Huang TA |
| 151 - 168 |
Effect of Free-Surface and Inertia on Viscoelastic Parallel-Plate Flow
Olagunju DO |
| 169 - 175 |
Bagley Plot of the Vectra B950 Thermotropic Polymer
Lefeuvre P, Deneve T, Navard P |
| 179 - 191 |
Official Nomenclature for Material Functions Describing the Response of a Viscoelastic Fluid to Various Shearing and Extensional Deformations
Dealy JM |
