Analysis of Influence of Various Defects on the Electric Field and Mechanical Stress Distribution of Insulation Rod
- Resource Type
- Conference
- Authors
- Kong, Xiaoxiao; Hou, Chengyao; Yun, Chen; Wang, Yifang; Xue, Rundong; Boxue, Du
- Source
- 2023 International Symposium on Electrical Insulating Materials (ISEIM) Electrical Insulating Materials (ISEIM), 2023 International Symposium on. :332-335 Sep, 2023
- Subject
- Engineered Materials, Dielectrics and Plasmas
Power, Energy and Industry Applications
Insulation
Tensile stress
Simulation
Fitting
Metals
High-voltage techniques
Distortion
GIS Circuit Breaker
Insulation rod
Internal defects
Electrical field
Mechanical stress field distribution
- Language
Micro defects may arise in insulation rods during both the manufacturing process and periods of service. A simulation model is created to examine how various defects influence the electric field and mechanical stress distribution within the insulation rod. This model incorporates defects such as voids and delamination. Simulation results indicate that as the breaker closes, the maximum electric field migrates along the axis due to a partial structural movement of the rod into the shielding. Varying defects cause distortions in both the surface and inner electric field distributions of the rod. Notably, delamination defects have a significantly greater influence on the inner electric field compared to the rod's surface. When subjected to static loads, the maximum stress values occur at the connection points between the insulation rod and the metal fittings. Delamination defects have a more pronounced effect on the stress distribution within the rod compared to void defects.