We present the first theoretical estimates for thermoelastic properties of the noncrystalline domain (the interlamellar phase) of semicrystalline polyethylene obtained by Monte Carlo simulations. The interlamellar phase is prescribed to be thermodynamically metastable, with the constraints that it have an average density less than that of the crystal and that it be bounded by two static crystalline lamellae oriented with the {201} crystal plane parallel to the interface. Polyethylene was modeled using a realistic united atom force field with inclusion of torsional contributions, and the results are compared to those of prior studies that used a freely rotating chain model. Parallel tempering between 350 and 450 K was used to simulate severa...
Plastic deformation of the stack of alternating crystal and amorphous layers typical of semicrystall...
The interphase layer in semi-crystalline polyethylene is the least known constituent, compared to th...
This feature article reviews several aspects of computational approaches to polyethylene melt and so...
We present the first theoretical estimates for thermoelastic properties of the noncrystalline domain...
This paper describes the results of molecular dynamics simulations of polyethylene crystal at two te...
International audienceThe elastic and large plastic deformations of semicrystalline polymers involve...
International audienceAbstract Molecular dynamics simulations are employed to study the crystallinit...
12 pags.; 10 figs.; 5 tabs.© 2015 American Chemical Society. Long molecular dynamics simulations of ...
International audienceWe present results from molecular dynamics simulations for an all-atoms model ...
Long molecular dynamics simulations of the melt dynamics, glass transition and nonisothermal crystal...
The structural, dynamical, and thermal properties of crystalline polyethylene are addressed with fir...
We describe a method to determine the mechanical and thermodynamic properties of the interface betwe...
In this article, we study the local structure and heat transfer properties (thermal conductivity and...
Recent research has highlighted the potential to achieve high-thermal-conductivity polymers by align...
We present simulation results of flow-induced crystallization of a dense polymeric liquid subjected ...
Plastic deformation of the stack of alternating crystal and amorphous layers typical of semicrystall...
The interphase layer in semi-crystalline polyethylene is the least known constituent, compared to th...
This feature article reviews several aspects of computational approaches to polyethylene melt and so...
We present the first theoretical estimates for thermoelastic properties of the noncrystalline domain...
This paper describes the results of molecular dynamics simulations of polyethylene crystal at two te...
International audienceThe elastic and large plastic deformations of semicrystalline polymers involve...
International audienceAbstract Molecular dynamics simulations are employed to study the crystallinit...
12 pags.; 10 figs.; 5 tabs.© 2015 American Chemical Society. Long molecular dynamics simulations of ...
International audienceWe present results from molecular dynamics simulations for an all-atoms model ...
Long molecular dynamics simulations of the melt dynamics, glass transition and nonisothermal crystal...
The structural, dynamical, and thermal properties of crystalline polyethylene are addressed with fir...
We describe a method to determine the mechanical and thermodynamic properties of the interface betwe...
In this article, we study the local structure and heat transfer properties (thermal conductivity and...
Recent research has highlighted the potential to achieve high-thermal-conductivity polymers by align...
We present simulation results of flow-induced crystallization of a dense polymeric liquid subjected ...
Plastic deformation of the stack of alternating crystal and amorphous layers typical of semicrystall...
The interphase layer in semi-crystalline polyethylene is the least known constituent, compared to th...
This feature article reviews several aspects of computational approaches to polyethylene melt and so...