Conformationally averaged iterative Brownian dynamics simulations of semidilute polymer solutions

Abstract: The dynamics of semidilute polymer solutions are important to many polymer solution processing techniques such as fiber spinning and solution printing. The out-of-equilibrium molecular conformations resulting from processing flows directly impact material properties. Brownian dynamics (BD) simulations are a standard technique for studying this connection between polymer conformations in solution and processing flows because they can capture molecular-level polymer dynamics. However, BD simulations of semidilut… Show more

“…The CA method approaches the full BD simulation upon another iteration w = 2, indicating the errors in the w = 1 iteration arise from conformationally averaging the Brownian noise over the While there is noise in the measurement, similar fluctuations are observed even in the dilute case and there is no observable trend in the error of the CA method. Solution stress is highly sensitive to preaveraging approximations, 14,19,75 so this is a promising result validating the accuracy of our CA approach.…”

“…While there are inherent approximations in the TEA, 67 we have previously shown that these lead to only small errors in the static polymer size and do not alter dynamic properties relative to simulations using the Krylov subspace. 75 We expect the method to match best in this case as shown by theory and our previous simulations, 74,75 which focus on steady state dynamics. We consider the ensemble average fractional extension projected along the axis of flow extension, ∆x f /L = (max({x i }) − min({x i }))/L, where L is the contour length.…”

“…74 We have also extended the method to semidilute equilibrium systems by utilizing a discrete approximation to the RPY tensor for intermolecular HI to account for fluctuations as chain center of masses diffusive relative to each other over time. 75 We have also constructed the Brownian noise to be consistent with these fluctuations using a modified version of the truncated expansion ansatz (TEA). 67 The semidilute CA method then quantitatively reproduces diffusion constant results of traditional BD simulations using the TEA, and also reproduces static properties and zero-shear viscosity from simulations using the Krylov subspace decomposition up to small quantitative differences.…”

“…75 In this method, the conformationdependent diffusion tensor is replaced by a single diffusion tensor, averaged over the non-equilibrium polymer conformations. 74,75 In this work, we extend the CA method to semidilute solutions in planar extensional flows. Notably, we no longer preaverage the intramolecular HI over the out-of-equilibrium polymer conformation, which is important for adequately sampling the broad conformational distributions in semidilute solutions.…”

“…Effectively, only the Brownian noise remains conformationally averaged in this approach, which retains the computational speedup of the equilibrium semidilute CA method. 75 In this paper, we use the semidilute, out-of-equilibrium CA method to perform detailed investigation of polymer dynamics in planar extensional flow. The remainder of the article is organized as follows: In Section II A we state the governing equations for BD simulations.…”

Simulation of semidilute polymer solutions in planar extensional flow via conformationally averaged Brownian noise

“…The CA method approaches the full BD simulation upon another iteration w = 2, indicating the errors in the w = 1 iteration arise from conformationally averaging the Brownian noise over the While there is noise in the measurement, similar fluctuations are observed even in the dilute case and there is no observable trend in the error of the CA method. Solution stress is highly sensitive to preaveraging approximations, 14,19,75 so this is a promising result validating the accuracy of our CA approach.…”

“…While there are inherent approximations in the TEA, 67 we have previously shown that these lead to only small errors in the static polymer size and do not alter dynamic properties relative to simulations using the Krylov subspace. 75 We expect the method to match best in this case as shown by theory and our previous simulations, 74,75 which focus on steady state dynamics. We consider the ensemble average fractional extension projected along the axis of flow extension, ∆x f /L = (max({x i }) − min({x i }))/L, where L is the contour length.…”

“…74 We have also extended the method to semidilute equilibrium systems by utilizing a discrete approximation to the RPY tensor for intermolecular HI to account for fluctuations as chain center of masses diffusive relative to each other over time. 75 We have also constructed the Brownian noise to be consistent with these fluctuations using a modified version of the truncated expansion ansatz (TEA). 67 The semidilute CA method then quantitatively reproduces diffusion constant results of traditional BD simulations using the TEA, and also reproduces static properties and zero-shear viscosity from simulations using the Krylov subspace decomposition up to small quantitative differences.…”

“…75 In this method, the conformationdependent diffusion tensor is replaced by a single diffusion tensor, averaged over the non-equilibrium polymer conformations. 74,75 In this work, we extend the CA method to semidilute solutions in planar extensional flows. Notably, we no longer preaverage the intramolecular HI over the out-of-equilibrium polymer conformation, which is important for adequately sampling the broad conformational distributions in semidilute solutions.…”

“…Effectively, only the Brownian noise remains conformationally averaged in this approach, which retains the computational speedup of the equilibrium semidilute CA method. 75 In this paper, we use the semidilute, out-of-equilibrium CA method to perform detailed investigation of polymer dynamics in planar extensional flow. The remainder of the article is organized as follows: In Section II A we state the governing equations for BD simulations.…”

Simulation of semidilute polymer solutions in planar extensional flow via conformationally averaged Brownian noise

Effect of Hydrodynamic Interactions and Flow on Charge Transport in Redox-Active Polymer Solutions

Simulation study of structural properties of colloidal suspensions