We present here a systematic study of dynamic behavior for polymer (PE) melt by means of Dissipative Particle Dynamics (DPD). We used DPD spring potential between adjacent segments. By changing various parameters related to spring potential like stiffness k, equilibrium distance r0 and parameters related to dynamic behavior like friction coefficient γ presented in dissipation force we tested their influence on scaling laws. We also compared these scaling laws obtained from our simulations with predictions from Rouse theory
A full inspection of the motion and relaxation of soft matter systems, such as polymer melts, soluti...
This review article is addressed to a broad community of polymer scientists. We outline and analyse ...
We model high molecular weight homopolymers in semidilute concentration via Dissipative Particle Dyn...
A new technique, dissipative particle dynamics (DPD), appears promising as a means of studying the d...
Understanding the fundamental properties of polymeric liquids remains a challenge in materials scien...
Both the Rouse and reptation model predict that the dynamics of a polymer melt scale inversely propo...
In this volume, a relatively new simulation method---Dissipative Particle Dynamics (DPD) is used to ...
We introduce a framework for model reduction of polymer chain models for dissipative particle dynami...
The authors analyzed extensively the dynamics of polymer chains in solutions simulated with dissipat...
AbstractWe model high molecular weight homopolymers in semidilute concentration via Dissipative Part...
Results from a molecular dynamics simulation of a melt of unentangled polymers are presented. The tr...
We performed a series of simulations for a linear polymer chain in a solvent using dissipative parti...
International audienceWe report a multiscale modeling approach to study static and dynamical propert...
We show that simulations of polymer rheology at a fluctuating mesoscopic scale and at the macroscopi...
The free volume distribution has been a qualitatively useful concept by which dynamical properties o...
A full inspection of the motion and relaxation of soft matter systems, such as polymer melts, soluti...
This review article is addressed to a broad community of polymer scientists. We outline and analyse ...
We model high molecular weight homopolymers in semidilute concentration via Dissipative Particle Dyn...
A new technique, dissipative particle dynamics (DPD), appears promising as a means of studying the d...
Understanding the fundamental properties of polymeric liquids remains a challenge in materials scien...
Both the Rouse and reptation model predict that the dynamics of a polymer melt scale inversely propo...
In this volume, a relatively new simulation method---Dissipative Particle Dynamics (DPD) is used to ...
We introduce a framework for model reduction of polymer chain models for dissipative particle dynami...
The authors analyzed extensively the dynamics of polymer chains in solutions simulated with dissipat...
AbstractWe model high molecular weight homopolymers in semidilute concentration via Dissipative Part...
Results from a molecular dynamics simulation of a melt of unentangled polymers are presented. The tr...
We performed a series of simulations for a linear polymer chain in a solvent using dissipative parti...
International audienceWe report a multiscale modeling approach to study static and dynamical propert...
We show that simulations of polymer rheology at a fluctuating mesoscopic scale and at the macroscopi...
The free volume distribution has been a qualitatively useful concept by which dynamical properties o...
A full inspection of the motion and relaxation of soft matter systems, such as polymer melts, soluti...
This review article is addressed to a broad community of polymer scientists. We outline and analyse ...
We model high molecular weight homopolymers in semidilute concentration via Dissipative Particle Dyn...