
The Introduction of UEWF Enamelled Wire Performance Characteristics
2024-10-29
1. Excellent heat resistance:
Heat-resistant temperature: UEWF can withstand heat-resistant temperatures up to 155°C. This makes it suitable for applications such as motors, transformers, etc., in high-temperature environments.
Thermal stability: In a high-temperature environment, UEWF's polyimide outer layer and modified polyester insulation work together to ensure that the wire can maintain stable performance under long-term high-temperature operation.
2. Excellent insulation properties:
Insulation thickness: The thickness of the modified polyester insulation layer of UEWF is generally 0.1-0.3mm, which can provide reliable insulation protection under high voltage conditions.
Electrical properties: The polyimide outer layer further enhances the dielectric strength and stability, ensuring electrical safety in high voltage and harsh environments.
3. Good mechanical strength:
Mechanical stress: Both the modified polyester insulation layer and the polyimide outer layer of UEWF have high mechanical strength, which can effectively resist the mechanical stress generated during the manufacturing process of the motor stator winding.
Abrasion resistance: The polyimide outer layer is extremely resistant to abrasion and maintains the integrity and performance of the wire under high levels of mechanical stress.
4. Excellent Chemical Resistance:
Corrosion resistance: UEWF's outer polyimide material is highly resistant to a wide range of chemicals and solvents, making it work stably for a long time in harsh industrial environments.
Chemical resistance: This property makes it suitable for chemical, petroleum, and other applications that require corrosion-resistant materials.
View More

2021 APS 8th International Automotive Powertrain Summit and Hairpin Motor Matching Technology Summit Forum
2024-04-24
Senior Operations Specialist Jerry Su was patiently explained our products to the guests in 2021 APS 8th International Automotive Powertrain Summit and Hairpin Motor Matching Technology Summit Forum.
View More