Abstract:In order to solve the problem of insulation failure caused by the cracking of mineral insulating oil due to electrical and thermal factors，based on the molecular dynamics simulation of the ReaxFF force field，electromagnetic theory is added to the traditional motion equation to establish a simulation model of mineral insulating oil containing 30 molecules and analyze the influence of thermal field and electric field on the microscopic process of mineral oil decomposition. First，the characteristic gases are identified and counted，and then the microscopic reaction process of mineral oil is analyzed through simulated dynamic images，and finally the gas production rules of mineral insulating oil under the combined action of electricity and heat are obtained. The rationality of the simulation results is verified by comparing with the gas production results of the column plate electrode discharge test. The results show that the thermal field is the main influencing factor for the decomposition of mineral insulating oil. At the same time，the electric field also promotes the decomposition of mineral oil.