Add to ORKGWe consider the extended Doi model for nematic liquid crystalline polymers in-planar shear flow, which is inhomogeneous in shear direction. We study the formation of microstructure and the dynamics of defects. We discretize the Fokker-Plank equation using the spherical harmonic spectral method. Five in-plane flow modes and eight out-of-plane flow modes are replicated in our simulations. In order to demonstrate the validity of our method in simulating liquid crystal dynamics, we replicated weak shear limit results and detected defects. We also demonstrate numerically that the Bingham closure model, which maintains energy dissipation, is a reliable closure model.Physics, MathematicalSCI(E)CPCI-S(ISTP)
Liquid crystals are known for their anisotropic characteristics, which lead to a preferred orientati...
We have solved the equations of transient shear flow for a model of a liquid crystalline polymer tha...
The collective periodic motions of liquid-crystalline polymers in a nematic phase in shear flow have...
Abstract. We consider the extendedDoi model for nematic liquid crystalline polymers in-planar shear ...
We study the microstructure formation and defects dynamics arising in liquid crystalline polymers (L...
We present an accurate and efficient numerical method to the solve the microstructure-flow problem t...
We present an accurate and efficient numerical method to the solve the microstructure-flow problem t...
We present an accurate and efficient numerical method to the solve the microstructure-flow problem t...
We present an accurate and efficient numerical method to the solve the microstructure-flow problem t...
Abstract. The Doi–Hess theory coupled with an anisotropic Marrucci–Greco distortional elas-ticity po...
We study nematodynamics of a mesoscopic system consisting of sheared biaxial liquid crystalline poly...
We simulate the startup flow of lyotropic liquid-crystalline polymers ~LCPs! in an eccentric cylinde...
In the shear flow of liquid crystalline polymers (LCPs) the nematic director orientation can align w...
In the shear flow of liquid crystalline polymers (LCPs) the nematic director orientation can align w...
Liquid crystals are known for their anisotropic characteristics, which lead to a preferred orientati...
Liquid crystals are known for their anisotropic characteristics, which lead to a preferred orientati...
We have solved the equations of transient shear flow for a model of a liquid crystalline polymer tha...
The collective periodic motions of liquid-crystalline polymers in a nematic phase in shear flow have...
Abstract. We consider the extendedDoi model for nematic liquid crystalline polymers in-planar shear ...
We study the microstructure formation and defects dynamics arising in liquid crystalline polymers (L...
We present an accurate and efficient numerical method to the solve the microstructure-flow problem t...
We present an accurate and efficient numerical method to the solve the microstructure-flow problem t...
We present an accurate and efficient numerical method to the solve the microstructure-flow problem t...
We present an accurate and efficient numerical method to the solve the microstructure-flow problem t...
Abstract. The Doi–Hess theory coupled with an anisotropic Marrucci–Greco distortional elas-ticity po...
We study nematodynamics of a mesoscopic system consisting of sheared biaxial liquid crystalline poly...
We simulate the startup flow of lyotropic liquid-crystalline polymers ~LCPs! in an eccentric cylinde...
In the shear flow of liquid crystalline polymers (LCPs) the nematic director orientation can align w...
In the shear flow of liquid crystalline polymers (LCPs) the nematic director orientation can align w...
Liquid crystals are known for their anisotropic characteristics, which lead to a preferred orientati...
Liquid crystals are known for their anisotropic characteristics, which lead to a preferred orientati...
We have solved the equations of transient shear flow for a model of a liquid crystalline polymer tha...
The collective periodic motions of liquid-crystalline polymers in a nematic phase in shear flow have...