Home
About
Advanced Search
Browse by Discipline
Scientific Societies
E-print Alerts
Add E-prints
FAQ
•
HELP
•
SITE MAP
•
CONTACT US
Search
Advanced Search
Wapperom, Peter - Department of Mathematics, Virginia Tech
Long glass fiber orientation in thermoplastic composites using a model that accounts for the flexibility of the fibers
Modeling the Transient Rheology of a Polypropylene Melt Reinforced with Long and Short Glass Fibers
The Dynamic Behavior of a Concentrated Non-Brownian Glass Fiber Suspension in Simple Shear Flow
Nonisothermal flows of viscoelastic fluids Thermodynamics, analysis and numerical simulation
Response to "Comment on: `Thermodynamics of viscoelastic fluids: the temperature equation' "
Numerical simulation of large amplitude oscillatory shear of a high-density
Thermodynamics of viscoelastic fluids: the temperature equation.
Simulation for Viscoelastic Flow by a Finite Volume/Element Method
Using Transient Shear Rheology to Determine Material Parameters in Fiber Suspension Theory
Prediction of rheometrical and complex flows of entangled linear polymers using the DCR model with chain stretch
Fiber Orientation Kinetics of a Concentrated Short Glass Fiber Suspension in Start up of Shear Flow
Long glass fiber orientation in thermoplastic composites using a model that accounts for the flexibility of the fibers
NUMERICAL SIMULATION OF A VISCOELASTIC FLUID WITH ANISOTROPIC HEAT CONDUCTION
Modeling the Rheology and Orientation Distribution of Short Glass Fibers Suspended in Polymeric Fluids: Simple Shear Flow
Aaron P. R. Eberle,*, Donald G. Baird,
Obtaining Reliable Transient Rheological Data on concentrated Short Fiber Suspensions using a Rotational Rheometer
Simulation of Orientation in Injection Molding of High Aspect Ratio Particle Thermoplastic Composites
Preliminary Efforts in the Simulation of Molding of a Polypropylene Melt Reinforced with Long Glass Fibers using Transient Shear Rheology
Numerical simulation of wire-coating: the influence of temperature boundary conditions
Fiber Orientation Kinetics of a Concentrated Short Glass Fiber Suspension in Startup of Simple Shear Flow
A new transpose split method for three-dimensional FFTs: performance on an
Impact of decoupling approximation between stretch and orientation in rheometrical and
Numerical simulation of branched polymer melts in transient complex flow using
Simulation of linear polymer melts in transient complex flow
The Backward-tracking Lagrangian Particle Method for transient viscoelastic flows
A Second-order Hybrid Finite Element/Volume Method for Viscoelastic Flows
A numerical method for steady and nonisothermal viscoelastic fluid flow for high Deborah and Peclet numbers
Short Communication A lower bound for the invariants of the configuration tensor for some
Improvements in the Simulation of Orientation in Injection Molding of Short Fiber Thermoplastic Composites
Transient Rheology of a Polypropylene Melt Reinforced with Long Glass Fibers Ortman, K.C.1
SIMULATION OF ORIENTATION IN INJECTION MOLDING OF A HIGHLY CONCENTRATED, SHORT GLASS FIBER THERMOPLASTIC COMPOSITES
2-D Simulations of Orientation in Highly Concentrated Short Glass Fiber Thermoplastic Composites Made by Injection Molding
The Dynamic Behavior of a Concentrated Polymeric Suspension Containing Non-Brownian Glass Fibers in Simple Shear Flow
A STUDY OF FINITE VOLUME METHODS FOR VISCOELASTIC FLOWS P. WAPPEROM, M.F. WEBSTER
Numerical prediction of the boundary layers in the flow around a cylinder using a fixed
IMPROVEMENT IN THE SIMULATION OF INJECTION MOLDED SHORT GLASS FIBER THERMOPLASTIC COMPOSITES