Rheology

Polymer Processing.- PC 1.1 Non-isothermal flows of Viscoelastic Fluids.- PC 1.2 Sensitivity of the Stability of Isothermal Melt Spinning to Rheological Constitutive Assumptions.- PC 1.3 Draw Resonance Studies of Polypropylene Melts.- PC 1.4° Quantitative Investigations of Orientation Development in Vitrifying Deforming Polymer Melts with Application to Processing.- PC 1.5° Quantitative Investigations of Crystallization Kinetics and Crystalline Morphology Development in Solidifying Polymer Melts with Application to Processing.- PC 1.6 Rheology in Calendering of Thermoplastics.- PC 1.7 Flow in Injection Moulds.- PC 2.1 Characterization of Extrusion Dies by the Stress Distribution at the Die Exit and the Free Recovery of Extrudate Elements.- PC 2.2 Influence of Wall Slip in Extrusion.- PC 2.3 An Inelastic Approach to Extrudate Swelling.- PC 2.4 Time Dependency of Extrudate Swell of Molten Polyethylene.- PC 2.5 Design of Polymer Melt Extrusion Dies to Avoid Non-Uniformity of Flow.- PC 2.6 Broken Section Method for Analyzing Molten Flow in Extrusion Die of Plastic Net.- PC 2.7 Rheological Behavior, Extrusion Characteristics and Viscous Dissipation in Fiber Reinforced Polymer Melts.- PC. 3.1 Time-Dependent Rheological Behavior of Polymeric Systems.- PC 3.2 Phase Behavior and Rheological Properties of Amorphous Polymers Plasticized by Crystalline Solids.- PC. 3.3 Gelation and Fusion Characteristics of PVC Resins in Plastisol by Determination of their Viscoelasticity.- PC 3.4 Process Rheology in the Polymer Manufacturing for Synthetic Fibers.- PC 3.5/6 Multiphase Flow in Polymer Processing.- PC 3.7 Instabilities and. Disturbances on Industrial Melt Spinning.- PC 4.1 Analysis of the Stratified Multi-Phase Flow of Polymer Melts in Wire Coating.- PC 4.2 Microstructural Orientation Distribution in Injection Molded Polyethylene Articles.- PC 4.3 Melt Deformation During Parison Formation and Inflation in Extrusion Blow Molding.- PC 4.4° High Modulus Polyethylene Obtained with Injection Molding.- PC 4.5 Flow of Molten Polymers Used in the Synthetic Fibre Industry through Granular Beds.- PC 4.6° Viscoelastic Properties of Phenol-Formaldehyde Oligomers and Polymers in the Process of Cross-Linking.- Rubber.- RB 1.1 Dynamic Mechanical Properties of Thermoplastic Urethane Elastomers by Thermally Stimulated Creep.- RB 1.2 Rubber Networks Containing Unattached Polymer Molecules and Carbon Black..- RB 1.3° Determination of Constitutive Equations in Finite Elasticity.- RB 1.4° Derivation of the Plazek Time-Chain Concentration Shift Factor for Elastomers.- RB 1.5 On the Transition from Linear to Non-Linear Viscoelastic Behavior of Natural Rubbers.- RB 1.6° Effects of Curatives and Antidegradants on Flow of Uncured Rubber Compounds.- RB 1.7° Analysis of Extrudate Swell Behavior of Rubber Compounds Using Laser Scan Detector.- Solids.- SD 1.1 Viscoelastic Response of a Solid Polymer After Yielding.- SD 1.2 Dynamic Mechanical Analysis of PC-SAN Blends.- SD 1.3 Dynamic Mechanical Properties of Aromatic Polyamidemide Degraded in NO2 Atmosphere.- SD 1.4 The Appearance of Nonlinear Viscoelasticity in Glassy Polymers.- SD 1.5 The Influence of Cooling Rate on the Transition to Marked Nonlinear Viscoelasticity in Poly(Methylmethacrylate).- SD 1.6 Viscoelastic Models in the Rheology of Hybrid Polymeric Composites of (Phase-in-Phase)-in-Phase Type.- SD 2.1° Thermal Properties in Composites.- SD 2.2 Stress Relaxation of Glass-Bead Filled Glassy Amorphous Polystyrene.- SD 2.3 Failure Properties of Filled Elastomers as Determined By Strain Endurance Tests.- SD 2.4 Aging of a Structural Adhesive.- SD 2.5 The Strength of Oriented Short Fiber Reinforced Plastics.- SD 2.6 Deformation Behavior of Composite Particles.- SD 2.7 Acoustical Response of Particulate-Loaded Viscoelastic Composites.- SD 3.1 The Role of Chain Entanglements and Crystals in the Orientation Process of Polymers.- SD 3.2 Deformation Induced Volume Relaxation in a Styrene-Butadiene Copolymer.- SD 3.3 A Deformation Analysis of a Polyethylene Crystal Subjected to End Forces of Stretching and Lattice Expansion.- SD 3.4 Induced Anisotropy of Thermal Expansivity under Large Deformations.- SD 3.5 Viscoelastic Behavior of Poly(Methyl Methacrylate): Prediction of Extensional Response from Torsional Data.- SD 3.6 Dynamic Mechanical Behavior of Plasticized and Filled Polymer Systems.- SD 4.1 Properties of Compatible Blends of Polycarbonate and a Copolyester.- SD 4.2° Relaxation Processes in Glassy Polymers and the Strain and Time Dependence of Gas Permeation.- SD 4.3 Application of a Thermodynamically based Single Integral Constitutive Equation to Stress Relaxation and Yield in ABS.- SD 4.4 Irreversible Thermodynamics of Glassy Polymers.- SD 4.5 Characterizing Rheological Cure Behavior of Epoxy Composite Materials.- SD 4.6 Conformational Energies of Polymers.- SD 5.1 The Rate-dependent Fracture Behavior of High Performance Sulfone Polymers.- SD 5.2 The Influence of Crystalline Structure on the Necking-Fracture Behavior of Polyethylene.- SD 5.3° Structure and Fracture of Thermally Oxidized Pipes of High—Density Polyethylene.- SD 5.4 Fibre Fatigue in Various Environments.- SD 5.5° Creep-Fatigue Rupture Prediction Models Applied on 2 1.4 Cr-1 Mo Steel at 550°C.- SD 5.6 Ultimate Strength of Poly(Ethylene Terephtalate) Fibres and its Relation to Thermal and Mechanical History.- SD 5.7 Building of Stress-Strain Curves for Glassy Polymers on the Basis of their Dynamic Mechanical Characteristics.- SD 5.8 Kinetics of Deformation and Intermolecular Forces in Polymers.- SD 6.1/2 Measurement of Dynamic Mechanical Properties Properties.- SD 6.3 Rheo-optical Studies on the Nature of Alpha and Beta Mechanical Dispersions of Polyethylene in Relation to the Deformation Mechanisms of Spherulitic Crystalline Texture.- SD 6.4° On the Creep-Behavior of Materials under Compression Between Parallel Plates.- SD 6.5 Processing Induced Superstructures in Moulded Amorphous Polymers.- SD 6.6° Effect of Variable Molecular Orientations on Stress-Crazing in Moulded Amorphous Polymers.- SD 6.7° Viscoelastic Behavior of Composite Systems Composed of Polybutadiene Particles and Polystyrene at Elevated Temperatures.- SD 6.8 Interactive Enhancement of PVC and ABS Toughness in their Blends, A Fracture Mechanics Investigation.- SD 7.1 Environmental Crazing of Polymethylmethacrylate and Polycarbonate.- SD 7.2 Recovery of Uniaxially Oriented Polypropylene.- SD 7.3 Dimensional Stability of Uniaxially Oriented Polystyrene Composites.- SD 7.4° Mechanical Properties of High Density Polyethylene-Polypropylene Blends.- SD 7.5° Properties of Polystyrene-Polyolefin Alloys.- SD 7.6° Strain and Strength Properties of Linear Polymers at Uniaxial Extension above their Glass Transition Temperature.- Biorheology.- BR 1.1/2 Molecular Rheology of Human Blood: Its Role in Health and Disease (Today and Tomorrow?).- BR 1.3° Analysis of Drag Reduction in Blood Flows.- BR 1.4 Augmented Rates of Oxygen Transfer to Blood under the Influence of Imposed Magnetic Fields.- BR 1.5 Mass Transfer in Time Dependent Blood Flow.- BR 1.6 Erythrocyte Elasticity in Muscular Dystrophic Mice.- BR 1.7 Kinetics and Morphology of Aggregation of Red Cells: Preparations for the NASA Spacelab.- BR 2.1° Some Rheological Aspects of Enzyme Manufacture.- BR 2.2 Synovial Fluid Rheology, Hyaluronic Acid and Macromolecular Network Structure.- BR 2.3° A Mathematical Formulation of the Growth of Biological Materials.- BR 2.4 Effects of Membrane Anisotropy upon the Viscoelasticity of Spherical Cell Suspensions.- BR 2.5 Walking, Running, Jumping — An Interaction of Two Rheological Systems.- BR 2.6 Rheological Properties of Pullulan by TS Cr.- BR 2.7 Fluid Dynamic Problems in Postdilutional Hemofiltration with High-Flux Membranes.- BR 3.1 Some Results about a New Mono-Cusp Aortic Valve Prothesis.- BR 3.2° Aspects of Measuring Techniques in Haemorheology within the Low Shear Range.- BR 3.3 Constitutive Equations for Large Human Arteries.- BR 3.4 Velocity Profile Measurements by Laser-Doppler Velocimetry (LDV) in Plane Capillaries. Comparison with Theoretical Profiles from a Two Fluid Model.- BR 3.5 An Optical Method for Studying Red Blood Cells Orientation and Aggregation in a Couette Flow of Blood Suspension.- BR 3.6° The Influence of the Internal Viscosity of Washed Red Blood Cells on their Rheological Behavior.- BR 3.7 The Quantitative Description of the Viscoelastic Properties of Human Blood.- BR 3.8° Temperature Dependency of Thixotropic Behavior of Whole Human Blood.- Miscellaneous.- MS 1.1 A Rheological Study of a Superplastic Sheet Metal Forming Process.- MS 1.2 The Rheological Assessment of Propellants.- MS 1.3° On the Plastic Deformation of Semiconductors.- MS 1.4° Rheological Properties of Treated Sub-Bentonite.- MS 1.5 Flow Behaviour of Lubricants in Service Conditions.- MS 2.1° Mechanics of Failure in Tissue Specimens of the Apple Cortex.- MS 2.2 Rheological Characterization of Time Dependent Foodstuffs.- MS 2.3 Rheological Properties of Non-Acqueous Suspensions of Titanium Dioxides Stabilized with Lecithin.- MS 2.4 Characterization of Chitosan Film.- MS 2.5 Rheological Properties of Highly Dilute Viscoelastic Aqueous Detergent Solutions.- MS 2.6 Reinforced Hydrophyllic Materials for Surgical Implants.- MS 2.7° Upon Viscoelastic Behavior of Compositions of the Type of Polymer Concrete.- MS 3.1/2 The Rheology of Polymers with Liquid Crystalline Order.- MS 3.3 A Thixotropic Model for Cement Pastes.- MS 3.4 On the Rheological Behavior of Cement Suspensions Tested in a Couette Rheometer.- MS 3.5 Correspondence Between Transient and Dynamic Viscoelastic Functions in the Case of Asphalts.- MS 3.6 The Viscoelastic Analysis of the Three Layer Paving System Subjected to Moving Loads.- MS 3.7 Prediction of the Behavior of Concrete by Means of a Rheological Law.- Late Papers.- Author Index.