Add to ORKGA simple molecular model is studied to explain wall slip in a polymer melt. We consider a tube model for tethered chains in which the most important relaxation mechanisms: convective constraint release and chain stretching (retraction), are incorporated. Furthermore, we take the interactions between tethered chains and bulk flow self-consistently into account. Numerical simulations show that our model exhibits an entanglement-disentanglement transition, leading to a jump in the slip velocity which increases with the number of entanglements and the grafting density. The wall shear stress is found to be a nonmonotonic function of the slip and plate velocity, yielding the possibility of hystcresis and spurt instabilities. In a simplified versi...
We investigate the ability of a coarse-grained slip-link model and a simple double reptation model t...
Interfacial slip plays a crucial role in a variety of fluid dynamics problems occurring in practical...
Dynamical properties of branched polymer melts are determined by the polymer molecular weights and a...
A simple molecular model is studied to explain wall slip in a polymer melt. We consider a tube model...
In this work, it is attempted to theoretically understand the phenomenon of wall slip through empiri...
A tube model is proposed for predicting wall slip phenomenon driven by the interfacial "disentanglem...
ABSTRACT: A tube model is proposed for predicting wall slip phenomenon driven by the interfacial “di...
Wall slip in polymer solutions and melts play an important role in fluid flow, heat transfer and mas...
We perform nonequilibrium molecular dynamics shear flow simulations of an entangled polymer melt con...
We present experimental data demonstrating wall slip of high temperature polymer melts at high shear...
In some recent experiments on entangled polymers of stress growth in the startup of fast shear flows...
A molecular model is proposed which predicts wall slip by disentanglement of polymer chains adsorbed...
iAbstract Polymer – surface interactions strongly influence many important industrial and rheologica...
A mechanism for explaining some of the instabilities observed during the extru-sion of polymer melts...
We study the interaction between constraint release and contour length fluctuations in well entangle...
We investigate the ability of a coarse-grained slip-link model and a simple double reptation model t...
Interfacial slip plays a crucial role in a variety of fluid dynamics problems occurring in practical...
Dynamical properties of branched polymer melts are determined by the polymer molecular weights and a...
A simple molecular model is studied to explain wall slip in a polymer melt. We consider a tube model...
In this work, it is attempted to theoretically understand the phenomenon of wall slip through empiri...
A tube model is proposed for predicting wall slip phenomenon driven by the interfacial "disentanglem...
ABSTRACT: A tube model is proposed for predicting wall slip phenomenon driven by the interfacial “di...
Wall slip in polymer solutions and melts play an important role in fluid flow, heat transfer and mas...
We perform nonequilibrium molecular dynamics shear flow simulations of an entangled polymer melt con...
We present experimental data demonstrating wall slip of high temperature polymer melts at high shear...
In some recent experiments on entangled polymers of stress growth in the startup of fast shear flows...
A molecular model is proposed which predicts wall slip by disentanglement of polymer chains adsorbed...
iAbstract Polymer – surface interactions strongly influence many important industrial and rheologica...
A mechanism for explaining some of the instabilities observed during the extru-sion of polymer melts...
We study the interaction between constraint release and contour length fluctuations in well entangle...
We investigate the ability of a coarse-grained slip-link model and a simple double reptation model t...
Interfacial slip plays a crucial role in a variety of fluid dynamics problems occurring in practical...
Dynamical properties of branched polymer melts are determined by the polymer molecular weights and a...