We use molecular dynamics (MD) to perform an extensive characterization of the thermo-mechanical response of a thermoset polymer composed of epoxy EPON862 and curing agent DETDA. Our simulations, with no adjustable parameters, show that atomistic simulation can capture non-trivial behavior of amorphous thermosets including the role of polymerization degree, thermal history, strain rate and temperature on the glass transition temperature (T(g)) and mechanical response (including ultimate properties) and lead to predictions in quantitative agreement with experiments. We find a significant increase in T(g), Young\u27s modulus and yield stress with degree of polymerization while yield strain is significantly less sensitive to it. For structures...
This dissertation examines two of the most important behaviors of amorphous polymers: the glass tran...
A computational molecular dynamics model for determining the thermomechanical properties of EPON 862...
We use molecular dynamics simulations to study the thermo-mechanical response of a thermosetting pol...
We report a detailed comparison between molecular dynamics predictions and experimental results for ...
Molecular dynamics and molecular mechanics simulations have been used to study thermo-mechanical res...
We use all-atom molecular dynamics (MD) simulations to predict the mechanical and thermal properties...
A novel molecular dynamics (MD) simulation methodology to capture brittle fracture in epoxy-based th...
It is well-known that all-atom molecular dynamics (MD) predictions of mechanical properties of therm...
Molecular dynamics simulations are conducted to predict thermal and mechanical properties of a famil...
Polymer systems have gained attention during the past years because of their technological and indus...
We propose an efficient simulation-based methodology to characterize the quasi-static (experimental ...
Atomistic simulations, also known as molecular dynamics simulations, can give significant insights o...
We report prediction of selected physical properties (e.g. glass transition temperature, moduli and ...
Molecular dynamics and molecular mechanics simulations are used to establish well-equilibrated, vali...
We report prediction of selected physical properties (e.g. glass transition temperature, moduli and ...
This dissertation examines two of the most important behaviors of amorphous polymers: the glass tran...
A computational molecular dynamics model for determining the thermomechanical properties of EPON 862...
We use molecular dynamics simulations to study the thermo-mechanical response of a thermosetting pol...
We report a detailed comparison between molecular dynamics predictions and experimental results for ...
Molecular dynamics and molecular mechanics simulations have been used to study thermo-mechanical res...
We use all-atom molecular dynamics (MD) simulations to predict the mechanical and thermal properties...
A novel molecular dynamics (MD) simulation methodology to capture brittle fracture in epoxy-based th...
It is well-known that all-atom molecular dynamics (MD) predictions of mechanical properties of therm...
Molecular dynamics simulations are conducted to predict thermal and mechanical properties of a famil...
Polymer systems have gained attention during the past years because of their technological and indus...
We propose an efficient simulation-based methodology to characterize the quasi-static (experimental ...
Atomistic simulations, also known as molecular dynamics simulations, can give significant insights o...
We report prediction of selected physical properties (e.g. glass transition temperature, moduli and ...
Molecular dynamics and molecular mechanics simulations are used to establish well-equilibrated, vali...
We report prediction of selected physical properties (e.g. glass transition temperature, moduli and ...
This dissertation examines two of the most important behaviors of amorphous polymers: the glass tran...
A computational molecular dynamics model for determining the thermomechanical properties of EPON 862...
We use molecular dynamics simulations to study the thermo-mechanical response of a thermosetting pol...