Meso-scale simulations are performed to obtain a fully cross-linked, equilibrated structure of an epoxy network. We derive and study the interactions giving rise to the final structure. Both equilibrium structures with no cross-links and fully cross-linked are examined. The simulations were performed using a recent dissipative particle dynamics parameterization method in which beads attain their pure volumes in the final structure. Preferential attractive and repulsive behavior of different chemical functional groups is revealed. When those are simulated as monomers, two phases form where intra-bead interactions are attractive and inter-bead interactions are repulsive. A homogeneous density distribution over the simulation box is noticed wh...
A new methodology and the corresponding C++ code for mesoscopic simulations of elastomers are presen...
The equilibrium structural properties of suspensions of semiflexible polymers with attractive ends a...
Experimental studies on epoxies report that the microstructure consists of highly crosslinked locali...
Meso-scale simulations are performed to obtain a fully cross-linked, equilibrated structure of an ep...
In this paper we aim at predicting material properties of a cross-linked polymer by using multi-scal...
We performed dissipative particle dynamics (DPD) simulations to investigate the structure and cross-...
We performed dissipative particle dynamics (DPD) simulations to investigate the structure and cross-...
Molecular simulation can provide valuable guidance in establishing clear links between structure and...
We use all-atom molecular dynamics (MD) simulations to predict the mechanical and thermal properties...
The structure and material properties of polymer networks can depend sensitively on changes in the e...
The three-dimensional arrangement of natural and synthetic network materials determines their applic...
Molecular dynamics and molecular mechanics simulations have been used to study thermo-mechanical res...
A new methodology and the corresponding C++ code for mesoscopic simulations of elastomers are presen...
The equilibrium structural properties of suspensions of semiflexible polymers with attractive ends a...
Experimental studies on epoxies report that the microstructure consists of highly crosslinked locali...
Meso-scale simulations are performed to obtain a fully cross-linked, equilibrated structure of an ep...
In this paper we aim at predicting material properties of a cross-linked polymer by using multi-scal...
We performed dissipative particle dynamics (DPD) simulations to investigate the structure and cross-...
We performed dissipative particle dynamics (DPD) simulations to investigate the structure and cross-...
Molecular simulation can provide valuable guidance in establishing clear links between structure and...
We use all-atom molecular dynamics (MD) simulations to predict the mechanical and thermal properties...
The structure and material properties of polymer networks can depend sensitively on changes in the e...
The three-dimensional arrangement of natural and synthetic network materials determines their applic...
Molecular dynamics and molecular mechanics simulations have been used to study thermo-mechanical res...
A new methodology and the corresponding C++ code for mesoscopic simulations of elastomers are presen...
The equilibrium structural properties of suspensions of semiflexible polymers with attractive ends a...
Experimental studies on epoxies report that the microstructure consists of highly crosslinked locali...