A mesoscopic model for diblock copolymers is combined with a simple rheological description of the viscoelastic contrast of its two phases. Under oscillatory shear the contrast generates secondary velocity fields and substantial deviations of volume-averaged flow parameters. The validity of our analytical findings is tested with three-dimensional numerical simulations. Furthermore, we consider the effect of advection by the generated flows on the stability of ordered lamellar states and propose a new criterion for the selection of orientations
Abstract: We generalize the earlier theory by Fredrickson [J. Rheol. v.38, 1045 (1994)] to study the...
3D computer simulations of lamellar phase of a diblock copolymer melt under simple steady shear are ...
A classical problem revisited: rheology of nematic polymer monodomains in small amplitude oscillator...
We develop a mesoscopic theoretical framework to study viscoelastic response of block copolymers in ...
ABSTRACT: The kinetics of lamellar orientation and rheological properties of symmetric diblock copol...
A mesoscopic model of a diblock copolymer is used to study the stability of a lamellar structure und...
Cell dynamics simulation is used to investigate the phase behavior of block copolymer/homopolymer mi...
The influence of the incorporation of homopolymer into the microdomains of lamellar microphase separ...
Shear flow is a versatile strategy to align microphase-separated morphologies of diblock copolymers ...
Various possible orientations of lamellar structures of diblock copolymers under shear are investiga...
We report on rheo-optical experiments performed with an entangled asymmetric polystyrene−polyisopren...
The effects of flow alignment on the relaxation dynamics of a lamellar diblock copolymer melt and th...
In our previous work, we explored the dynamics of a dilute suspension of rigid dumbbells as a model ...
The linear viscoelastic behavior of an ordering polystyrene latex during steady shear flow has been ...
3D computer simulations of lamellar phase of a diblock copolymer melt under simple steady shear are ...
Abstract: We generalize the earlier theory by Fredrickson [J. Rheol. v.38, 1045 (1994)] to study the...
3D computer simulations of lamellar phase of a diblock copolymer melt under simple steady shear are ...
A classical problem revisited: rheology of nematic polymer monodomains in small amplitude oscillator...
We develop a mesoscopic theoretical framework to study viscoelastic response of block copolymers in ...
ABSTRACT: The kinetics of lamellar orientation and rheological properties of symmetric diblock copol...
A mesoscopic model of a diblock copolymer is used to study the stability of a lamellar structure und...
Cell dynamics simulation is used to investigate the phase behavior of block copolymer/homopolymer mi...
The influence of the incorporation of homopolymer into the microdomains of lamellar microphase separ...
Shear flow is a versatile strategy to align microphase-separated morphologies of diblock copolymers ...
Various possible orientations of lamellar structures of diblock copolymers under shear are investiga...
We report on rheo-optical experiments performed with an entangled asymmetric polystyrene−polyisopren...
The effects of flow alignment on the relaxation dynamics of a lamellar diblock copolymer melt and th...
In our previous work, we explored the dynamics of a dilute suspension of rigid dumbbells as a model ...
The linear viscoelastic behavior of an ordering polystyrene latex during steady shear flow has been ...
3D computer simulations of lamellar phase of a diblock copolymer melt under simple steady shear are ...
Abstract: We generalize the earlier theory by Fredrickson [J. Rheol. v.38, 1045 (1994)] to study the...
3D computer simulations of lamellar phase of a diblock copolymer melt under simple steady shear are ...
A classical problem revisited: rheology of nematic polymer monodomains in small amplitude oscillator...