A persistent challenge in molecular modeling of thermoset polymers is capturing the effects of chemical composition and degree of crosslinking (DC) on dynamical and mechanical properties with high computational efficiency. We established a coarse-graining (CG) approach combining the energy renormalization method with Gaussian process surrogate models of molecular dynamics simulations. This allows a machine-learning informed functional calibration of DC-dependent CG force field parameters. Taking versatile epoxy resins consisting of Bisphenol A diglycidyl ether combined with curing agent of either 4,4-Diaminodicyclohexylmethane or polyoxypropylene diamines, we demonstrated excellent agreement between all-atom and CG predictions for density, ...
Despite numerous studies on thermoset resin systems, understanding of the influence of chemical netw...
In this paper, the molecular dynamics method was used to calculate the physical and mechanical prope...
Mesoscale simulation techniques have helped to bridge the length scales and time scales needed to pr...
A persistent challenge in molecular modeling of thermoset polymers is capturing the effects of chemi...
Coarse-grained modeling shows potential in exploring the thermo-mechanical behaviors of polymers app...
The objective of this work is to predict the morphology and material properties of crosslinking poly...
In this paper we aim at predicting material properties of a cross-linked polymer by using multi-scal...
## Abstract from [1]: Accurate molecular modelling of the physical and chemical behavior of highl...
We carried out molecular dynamics (MD) simulations to measure the mechanical properties of various o...
The influence of monomer functionality on the mechanical properties of epoxies is studied using Mole...
Thanks to its high mechanical performances, epoxy is undoubtedly one of the most successful matrix i...
This research aims at developing new computational methods to understand the molecular self-assembly...
International audienceAll-atom molecular dynamics simulations (MD) were performed with the CHARMM fo...
We present a versatile systematic two-bead-per-monomer coarse-grain modeling strategy for simulating...
Despite numerous studies on thermoset resin systems, understanding of the influence of chemical netw...
In this paper, the molecular dynamics method was used to calculate the physical and mechanical prope...
Mesoscale simulation techniques have helped to bridge the length scales and time scales needed to pr...
A persistent challenge in molecular modeling of thermoset polymers is capturing the effects of chemi...
Coarse-grained modeling shows potential in exploring the thermo-mechanical behaviors of polymers app...
The objective of this work is to predict the morphology and material properties of crosslinking poly...
In this paper we aim at predicting material properties of a cross-linked polymer by using multi-scal...
## Abstract from [1]: Accurate molecular modelling of the physical and chemical behavior of highl...
We carried out molecular dynamics (MD) simulations to measure the mechanical properties of various o...
The influence of monomer functionality on the mechanical properties of epoxies is studied using Mole...
Thanks to its high mechanical performances, epoxy is undoubtedly one of the most successful matrix i...
This research aims at developing new computational methods to understand the molecular self-assembly...
International audienceAll-atom molecular dynamics simulations (MD) were performed with the CHARMM fo...
We present a versatile systematic two-bead-per-monomer coarse-grain modeling strategy for simulating...
Despite numerous studies on thermoset resin systems, understanding of the influence of chemical netw...
In this paper, the molecular dynamics method was used to calculate the physical and mechanical prope...
Mesoscale simulation techniques have helped to bridge the length scales and time scales needed to pr...