Mechanical Behavior Analysis of Double-Layer Graphene Based on Football and Meshless kp-Ritz Method

Abstract

Graphene is a double-layer flat film composed of multiple atoms. It is mainly based on the hexagonal honeycomb lattice structure composed of carbon atoms in a hybrid structure. The three-dimensional image is like a grid shape on the surface of a football. Double-layer graphene is a two-carbon material composed of two layers of carbon atoms that are periodically and closely packed in a benzene ring structure stacked in a different stacking manner. In this article, this article aims to study the thermodynamic behavior analysis of double-layer graphene. According to a mechanical behavior analysis of football and meshless kp-Rit method, due to the thermodynamic instability of two-dimensional crystals, no matter what whether it is a football shape or a meshless method, the graphene is not a complete plane either freely or deposited on the substrate. On the contrary, there are microscopic wrinkles on the surface. According to observations, this three-dimensional change will cause the generation of static electricity. At the same time, it will also make the connection between different carbon atoms more viscous, and the properties will be more stable. Study the tensile force with stronger fracture strength than steel, through the study of meshless methods and mechanical research models Established, and finally showed that in the experimental results in this article, the angle between the bond and the bond is 120°, and its strength can reach about 150 GPa.