Journal of Chemistry and Chemical Research

Graphene-reinforced polymer composites have been widely used in fields such as aerospace and automotive industries due to their excellent mechanical properties and multifunctionality. However, the mechanical properties of these composites are closely related to the interface structure. This paper investigates interface optimization methods for graphene-reinforced polymer composites and predicts their mechanical properties based on numerical simulations and experimental data. By adjusting the interfacial bonding strength between graphene and the polymer matrix, the overall mechanical performance of the composite can be significantly enhanced. Further experiments verify the reliability of the theoretical predictions, indicating that interface optimization provides a feasible approach to improving material performance.

Graphene; Polymer composites; Interface optimization; Mechanical properties; Numerical simulation