Add to ORKGWe examine several aspects of the dynamics of linear polymers under shear and extensional flows. We use nonequilibrium molecular dynamics (NEMD) to simulate systems under planar Couette flow (PCF) and planar extensional flow (PEF). In addition we look at several kinetic models of polymer melts, in particular the Curtiss-Bird model, for which we calculate the predictions of steady-state viscosity under PEF. To the best of our knowledge this is the first time that these results have been presented for this kinetic model. Our simulations under PEF are enabled by the use of Kraynik-Reinelt periodic boundary conditions (pbcs). We include here our observation that these pbcs are closely related to the Arnold cat map, a simple example of a dynamic...
We examine the phenomenon of polymer drag reduction in a turbulent flow through Brownian dynamics si...
We present a study of the rheology and optical properties during the start-up of uniaxial extensiona...
The Doi−Edwards tube model, coupled with relaxation mechanisms, such as reptation, contour length fl...
We present results from molecular dynamics simulations for the anisotropic self-diffusion tensor and...
There has been extensive study on the behavior of polymers in the presence of fluid flow over the pa...
We compare directly under flow two commonly used coarse grained models of linear polymers, namely th...
This thesis contains simplified simulations of polymers in the entangled melt/solution state and in ...
This thesis contains simplified simulations of polymers in the entangled melt/solution state and in ...
The linear viscoelastic properties of linear polymers melts and solutions are well understood and ca...
For many years the simulation of elongational (or extensional) flows by molecular dynamics simulatio...
We present the results of non-equilibrium molecular dynamics simulations of planar shear flow and pl...
We examine the influence of the number of entanglements per chain (Z) on the uniaxial extensional rh...
The current coarse-grained picture to represent polymer chain dynamics under uniaxial extensional fl...
While the linear viscoelastic properties of linear polymers are quite well understood and can be pre...
We present an extension of the Rouse-CCR tube model for linear entangled polymers, by incorporating ...
We examine the phenomenon of polymer drag reduction in a turbulent flow through Brownian dynamics si...
We present a study of the rheology and optical properties during the start-up of uniaxial extensiona...
The Doi−Edwards tube model, coupled with relaxation mechanisms, such as reptation, contour length fl...
We present results from molecular dynamics simulations for the anisotropic self-diffusion tensor and...
There has been extensive study on the behavior of polymers in the presence of fluid flow over the pa...
We compare directly under flow two commonly used coarse grained models of linear polymers, namely th...
This thesis contains simplified simulations of polymers in the entangled melt/solution state and in ...
This thesis contains simplified simulations of polymers in the entangled melt/solution state and in ...
The linear viscoelastic properties of linear polymers melts and solutions are well understood and ca...
For many years the simulation of elongational (or extensional) flows by molecular dynamics simulatio...
We present the results of non-equilibrium molecular dynamics simulations of planar shear flow and pl...
We examine the influence of the number of entanglements per chain (Z) on the uniaxial extensional rh...
The current coarse-grained picture to represent polymer chain dynamics under uniaxial extensional fl...
While the linear viscoelastic properties of linear polymers are quite well understood and can be pre...
We present an extension of the Rouse-CCR tube model for linear entangled polymers, by incorporating ...
We examine the phenomenon of polymer drag reduction in a turbulent flow through Brownian dynamics si...
We present a study of the rheology and optical properties during the start-up of uniaxial extensiona...
The Doi−Edwards tube model, coupled with relaxation mechanisms, such as reptation, contour length fl...