We propose a simple way of including chain stretch effects in convective constraint release theories for entangled polymers. The main idea is that the characteristic time of orientational relaxation depends in a series-parallel way on all three relevant mechanisms, i.e., reptation, constraint release (thermal and convective), and Rouse relaxation. As usual, a separate equation describes chain stretch, which however is assumed not to be affected by constraint release. The model is further simplified by writing the orientational equation in differential form. For step strains, the successful damping function of the Doi-Edwards theory is exactly preserved. Predictions in steady shear also favorably compare with typical data of nearly monodispe...
We probe the nature of steady shear flow of entangled polymer solutions by superimposing either smal...
Using the single generator bracket formalism of non-equilibrium thermodynamics, we build a thermodyn...
We develop a single segment differential tube model including interchain tube pressure effect (ITPE)...
We propose a simple way of including chain stretch effects in convective constraint release theories...
In our previous publication, we presented a molecular model to describe the dynamics of the interfac...
We present a tube-based constitutive model for polydisperse entangled linear polymers. The model is ...
We develop a microscopic description of the contribution to stress relaxation in entangled polymer m...
We present a new differential formulation of the thermal constraint release phenomenon for linear en...
ABSTRACT: The seminal ideas of de Gennes and Doi and Edwards have provided the theoretical framework...
We derive a thermodynamically consistent framework for incorporating entanglement dynamics into cons...
Recently we revisited the mesoscopic theory of linear, entangled polymer chains under fast shear def...
We study the rheometrical and complex flow response of the coupled version of the double-convection-...
The dynamics of chain entanglement/disentanglement in concentrated polymer solutions are matters of ...
We study the interaction between constraint release and contour length fluctuations in well entangle...
While the linear viscoelastic properties of linear polymers are quite well understood and can be pre...
We probe the nature of steady shear flow of entangled polymer solutions by superimposing either smal...
Using the single generator bracket formalism of non-equilibrium thermodynamics, we build a thermodyn...
We develop a single segment differential tube model including interchain tube pressure effect (ITPE)...
We propose a simple way of including chain stretch effects in convective constraint release theories...
In our previous publication, we presented a molecular model to describe the dynamics of the interfac...
We present a tube-based constitutive model for polydisperse entangled linear polymers. The model is ...
We develop a microscopic description of the contribution to stress relaxation in entangled polymer m...
We present a new differential formulation of the thermal constraint release phenomenon for linear en...
ABSTRACT: The seminal ideas of de Gennes and Doi and Edwards have provided the theoretical framework...
We derive a thermodynamically consistent framework for incorporating entanglement dynamics into cons...
Recently we revisited the mesoscopic theory of linear, entangled polymer chains under fast shear def...
We study the rheometrical and complex flow response of the coupled version of the double-convection-...
The dynamics of chain entanglement/disentanglement in concentrated polymer solutions are matters of ...
We study the interaction between constraint release and contour length fluctuations in well entangle...
While the linear viscoelastic properties of linear polymers are quite well understood and can be pre...
We probe the nature of steady shear flow of entangled polymer solutions by superimposing either smal...
Using the single generator bracket formalism of non-equilibrium thermodynamics, we build a thermodyn...
We develop a single segment differential tube model including interchain tube pressure effect (ITPE)...