Molecular dynamics simulation of plastic deformation in polyethylene under uniaxial and biaxial tension

Abstract: Plastic deformation of polyethylene in uniaxial and biaxial loading conditions is studied using molecular dynamics simulation. Effects of tensile strain rates from 1 × 105 to 1 × 109 s−1, and mass density in the range of 0.923–0.926 g/cm3 on mechanical behaviour and microstructure evolution are examined. Two biaxial tensile deformation modes are considered. One is through simultaneous stretching in both the x and y directions and the other sequential stretching, firstly in the x-direction and then in the y-dir… Show more

“…They report a significant influence of the different stretch ratios on orientation and crystallization behavior. Recently, Zhang et al [ 26 ] investigated uni- and biaxially stretched polyethylene systems using MD methods. They focused on the influence of different stretching approaches on stress–strain properties and failure behavior.…”

Initial Crystallization Effects in Coarse-Grained Polyethylene Systems After Uni- and Biaxial Stretching in Blow-Molding Cooling Scenarios

“…They report a significant influence of the different stretch ratios on orientation and crystallization behavior. Recently, Zhang et al [ 26 ] investigated uni- and biaxially stretched polyethylene systems using MD methods. They focused on the influence of different stretching approaches on stress–strain properties and failure behavior.…”

Initial Crystallization Effects in Coarse-Grained Polyethylene Systems After Uni- and Biaxial Stretching in Blow-Molding Cooling Scenarios

Molecular dynamics study on mechanical properties of polycaprolactone/bioactive glass nanocomposites