The main role of impregnated insulating resin applications
1. Insulation
protection (1) Winding insulation: Impregnating resin is used in reactor windings to fill the gaps between wires, forming a uniform insulation layer and preventing short circuits and leakage.
(2) Moisture and dust resistance: After curing, the resin can effectively isolate moisture and dust, improving the reliability of the reactor in harsh environments.
2.
Mechanical strength (1) Fixed winding: After the resin is cured, it can firmly fix the winding, reduce the displacement caused by vibration and electromagnetic force, and extend the life of the reactor.
(2) Shock resistance: Enhance the shock and vibration resistance of the reactor, suitable for high vibration environments.
3. Heat dissipation
performance (1) Thermal conductivity: Some resins have good thermal conductivity, which helps the winding dissipate heat and prevent overheating damage.
(2) Uniform heat dissipation: The resin fills the voids, improves the heat dissipation path, and improves the heat dissipation efficiency.
4.
Chemical stability (1) Chemical corrosion resistance: The resin can resist the corrosion of oil, acid, alkali and other chemicals, and is suitable for harsh environments such as chemical industry.
(2) High temperature resistance: Some resins can remain stable at high temperatures, suitable for high temperature environments.
protection (1) Winding insulation: Impregnating resin is used in reactor windings to fill the gaps between wires, forming a uniform insulation layer and preventing short circuits and leakage.
(2) Moisture and dust resistance: After curing, the resin can effectively isolate moisture and dust, improving the reliability of the reactor in harsh environments.
2.
Mechanical strength (1) Fixed winding: After the resin is cured, it can firmly fix the winding, reduce the displacement caused by vibration and electromagnetic force, and extend the life of the reactor.
(2) Shock resistance: Enhance the shock and vibration resistance of the reactor, suitable for high vibration environments.
3. Heat dissipation
performance (1) Thermal conductivity: Some resins have good thermal conductivity, which helps the winding dissipate heat and prevent overheating damage.
(2) Uniform heat dissipation: The resin fills the voids, improves the heat dissipation path, and improves the heat dissipation efficiency.
4.
Chemical stability (1) Chemical corrosion resistance: The resin can resist the corrosion of oil, acid, alkali and other chemicals, and is suitable for harsh environments such as chemical industry.
(2) High temperature resistance: Some resins can remain stable at high temperatures, suitable for high temperature environments.
Related Products
