Coarse-grained molecular dynamics simulation on strain-hardening and fracture behaviors of polycarbonate: Effect of polydispersity and spatial distribution

Abstract: Coarse-grained molecular dynamics simulation of polycarbonate is utilized to investigate the relationship between molecular structure (i.e., polydispersity and molecular spatial distribution) and strain-hardening and fracture behavior of polycarbonate. We find that strain-hardening modulus and chain extensibility, which are the constitutive parameters of the Eindhoven Glassy Polymer model are highly affected by spatial distribution but are insensitive to polydispersity. This is attributed to the higher rate of… Show more

“…The risk of brittle fracture is a very important evaluation factor in applications, as components may experience catastrophic failures at very low deformation levels. The research on the fracture behavior of PC after being impacted [ 12 , 13 , 14 , 15 ] is also a research focus.…”

The Effect of Notch and Molecular Weight on the Impact Fracture Behavior of Polycarbonate

“…The risk of brittle fracture is a very important evaluation factor in applications, as components may experience catastrophic failures at very low deformation levels. The research on the fracture behavior of PC after being impacted [ 12 , 13 , 14 , 15 ] is also a research focus.…”

The Effect of Notch and Molecular Weight on the Impact Fracture Behavior of Polycarbonate

Degradation of molecular structure and residual strength of polycarbonate under cyclic loading: Insights from coarse-grained molecular dynamics simulation