It is well-known that all-atom molecular dynamics (MD) predictions of mechanical properties of thermoset resins suffer from multiple accuracy issues associated with their viscoelastic nature. The nanosecond simulation times of MD simulations do not allow for the direct simulation of the molecular conformational relaxations that occur under laboratory time scales. This adversely affects the prediction of mechanical properties at realistic strain rates, intermediate degrees of cure, and elevated temperatures. While some recent studies have utilized a time-temperature superposition approach to relate MD predictions to expected laboratory observations, such an approach becomes prohibitively difficult when simulating thermosets with a combinatio...
We carried out molecular dynamics (MD) simulations to measure the mechanical properties of various o...
We use molecular dynamics simulations to study the thermo-mechanical response of a thermosetting pol...
International audienceThis paper presents a viscoelastic temperature- and degree-of-cure-dependent c...
It is well-known that all-atom molecular dynamics (MD) predictions of mechanical properties of therm...
We report a detailed comparison between molecular dynamics predictions and experimental results for ...
We use molecular dynamics (MD) to perform an extensive characterization of the thermo-mechanical res...
Epoxy resins are the most commonly used adhesives in industry due to their versatility, low cost, lo...
We report prediction of selected physical properties (e.g. glass transition temperature, moduli and ...
We report prediction of selected physical properties (e.g. glass transition temperature, moduli and ...
Behavior of epoxy resin is critical for performanceand reliability of electronic packages. The abili...
We propose an efficient simulation-based methodology to characterize the quasi-static (experimental ...
A novel molecular dynamics (MD) simulation methodology to capture brittle fracture in epoxy-based th...
Molecular dynamics and molecular mechanics simulations have been used to study thermo-mechanical res...
A constitutive model, based on Kohlrausch-Williams-Watts (KWW) equations, was developed to simulate...
Epoxy resins are employed in many engineering applications in which mechanical properties at differe...
We carried out molecular dynamics (MD) simulations to measure the mechanical properties of various o...
We use molecular dynamics simulations to study the thermo-mechanical response of a thermosetting pol...
International audienceThis paper presents a viscoelastic temperature- and degree-of-cure-dependent c...
It is well-known that all-atom molecular dynamics (MD) predictions of mechanical properties of therm...
We report a detailed comparison between molecular dynamics predictions and experimental results for ...
We use molecular dynamics (MD) to perform an extensive characterization of the thermo-mechanical res...
Epoxy resins are the most commonly used adhesives in industry due to their versatility, low cost, lo...
We report prediction of selected physical properties (e.g. glass transition temperature, moduli and ...
We report prediction of selected physical properties (e.g. glass transition temperature, moduli and ...
Behavior of epoxy resin is critical for performanceand reliability of electronic packages. The abili...
We propose an efficient simulation-based methodology to characterize the quasi-static (experimental ...
A novel molecular dynamics (MD) simulation methodology to capture brittle fracture in epoxy-based th...
Molecular dynamics and molecular mechanics simulations have been used to study thermo-mechanical res...
A constitutive model, based on Kohlrausch-Williams-Watts (KWW) equations, was developed to simulate...
Epoxy resins are employed in many engineering applications in which mechanical properties at differe...
We carried out molecular dynamics (MD) simulations to measure the mechanical properties of various o...
We use molecular dynamics simulations to study the thermo-mechanical response of a thermosetting pol...
International audienceThis paper presents a viscoelastic temperature- and degree-of-cure-dependent c...