Silane crosslinked polyethylene: Polyethylene is formed into a three-dimensional network structure through silane crosslinking technology. Has good insulation performance, can limit charge movement, reduce conductivity and dielectric loss. Excellent thermal stability, capable of long-term operation at temperatures ranging from 125 ° C to 130 ° C. Good chemical stability, good tolerance to various chemicals, suitable for a variety of complex environments. Widely used for insulation protection in fields such as power transmission cables and building wiring.
Cross linked polyethylene (XLPE): XLPE is a cross-linked polyethylene material that has superior electrical, mechanical, and heat resistance properties compared to ordinary polyethylene. It has high insulation resistance, low dielectric loss, and can effectively withstand high voltage. It is widely used in insulation protection of high-voltage and ultra high voltage power cables, which can improve the transmission capacity and operational reliability of cables.
Polyvinyl chloride (PVC): It is a high molecular weight polymer with high chemical stability, polymerized from vinyl chloride monomer. High elasticity enables it to adapt to a certain degree of deformation, and good chemical resistance can resist corrosion from various chemical substances. Has certain thermal stability and can maintain physical properties over a wide temperature range. Often used as a cable sheath material to provide insulation and protection for cables, it is widely used in cable applications such as building wiring, industrial automation, and data communication.
Epoxy resin: has excellent electrical insulation properties, high breakdown strength, and can effectively prevent current leakage under high voltage. After curing, it has high mechanical strength and can be made into various insulation structural components, such as epoxy boards, epoxy castings, etc. Good bonding performance, able to firmly bond with various materials, used in electrical equipment to improve overall insulation performance and structural stability, widely used in insulation of transformers, switchgear, insulators and other equipment.
Mica: It is a natural mineral insulation material with high electrical strength and heat resistance, and its breakdown electric field strength can reach 40-60kV/mm. Good chemical stability and moisture resistance, not easily affected by external environment. It can be processed into mica tape, mica board, etc. for winding insulation of motors, transformers and other equipment, which can effectively improve the insulation performance and service life of the equipment.
Ceramics: have extremely high insulation resistance and voltage resistance, and can withstand high electric field strength. High temperature resistance, corrosion resistance, wear resistance, and stable performance in harsh environments. Commonly used in the manufacture of insulators, insulation sleeves, etc., as insulation supports and isolation components in outdoor environments such as high-voltage transmission lines and substations, to ensure the safe operation of power equipment.
Rubber: It has good flexibility and elasticity, and can adapt to different installation environments and mechanical stresses. Good electrical insulation performance, can be used to manufacture insulation products such as insulation tape, insulation gloves, insulation pads, etc. Some special rubbers, such as ethylene propylene rubber, also have excellent weather resistance and aging resistance, making them suitable for insulation protection of outdoor power equipment.

Room termperature curing polysilazane, pls check IOTA 9150, IOTA 9150K. 
High termperature curing polysilazane, pls check IOTA 9108, IOTA 9118.