High-strength Analysis Of Epoxy Resin Insulators

Epoxy resin undergoes a curing reaction to form a three-dimensional cross-linked polymer structure. This network structure endows the material with high tensile strength, compressive strength, and flexural strength.

Composite fillers and reinforcement processes further enhance mechanical properties. Typically, fillers such as glass fiber and quartz powder are added to the epoxy resin to make the material structure denser and more rigid.

Therefore, when subjected to external loads, vibrations, or impacts, and even under the interaction of high-voltage electricity and outdoor environments, high voltage standoff insulators can still maintain its structural integrity and is not easily deformed or broken.

The high mechanical strength originates from the cross-linked network at the molecular level. Combined with appropriate fillers and molding processes, high voltage epoxy possesses excellent structural stability and damage resistance.