Polyamide imide aluminum enameled wire is a high-grade enameled wire that uses aluminum as the conductor material and is coated with polyamide imide resin as the insulation layer on its surface. This type of enameled wire combines the lightweight and cost-effectiveness of aluminum with the excellent performance of polyamide imide resin, making it suitable for many high demand electrical applications.
Product Name | Polyester Enamel Aluminum wire | |||
Type | QXY/200 | EI-AIW/200 | ||
Coating color | Brown | Deep-Brown | ||
Size | 0.19-300MM | |||
Coating thickness | -1 | -2 | ||
Spool packing | PT35 | PT15 | PT25 | PT60 |
Thermal class | C 200%C | |||
Standard | GB 6109 | IEC 60317-0-3 |
The aluminium winding wire has high heat resistance, refrigerant resistance, cold resistance, radiation resistance and other characteristics, high mechanical strength, stable electrical performance, good chemical resistance and refrigerant resistance, and strong overload capacity. It is widely used in refrigerator compressors, air conditioning compressors, electric tools, explosion-proof motors and motors and electrical appliances used under high temperature, high cold, radiation resistance, overload and other conditions.
The following are several key features of polyamide imide aluminum enameled wire:
1. High heat resistance: Polyamide imide (PAI) resin has extremely high heat resistance and can work for a long time at temperatures as high as 200° C or even higher, suitable for heat resistance grades N (200 ° C) and above.
2. Excellent mechanical properties and chemical resistance: Polyamide imide resin has good mechanical strength and toughness, and can withstand mechanical stress during manufacturing and operation. At the same time, it has good resistance to various chemical substances, making enameled wire suitable for use in harsh chemical environments.
3. Electrical insulation performance: Excellent electrical insulation performance is crucial for preventing electrical faults and improving equipment life.
4. Lightweight and cost-effective: Aluminum, as a conductor material, has a lighter weight and lower cost compared to copper, which helps to reduce the overall cost and weight of electrical equipment.