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In the demanding world of electrical engineering, where components are often subjected to harsh conditions, the durability of materials is paramount. The PEW QZ Class 130 Polyester Enameled Copper Round Wire is specifically designed to meet these challenges, offering exceptional durability that ensures long-term reliability and performance. This wire is not just a conductor; it's a robust solution that stands up to the test of time in various industrial and consumer applications.
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For enameled wires with a nominal conductor diameter of 0.063 mm or more, the resistance value is not specified.After the negotiation between the supplier and the buyer, the enameled wire with a nominal diameter of 0.063mm or more and 1.000mm or less can be used for resistance measurement.
Conductor nominal diameter / mm | Resistance Ω/m | Conductor nominal diameter / mm | Resistance Ω/m | ||
Minimum value | Maximum | Minimum value | Maximum | ||
0.013 | 60.46 | 73.89 | 0.036 | 15.16 | 18.42 |
0.020 | 48.97 | 59.85 | 0.040 | 12.28 | 14.92 |
0.022 | 40.47 | 49.47 | 0.045 | 9.705 | 11.79 |
0.025 | 31.34 | 38.31 | 0.050 | 7.922 | 9.489 |
0.023 | 24.99 | 30.54 | 0.056 | 6.316 | 7.565 |
0.032 | 19.13 | 23.38 | 0.063 | 5.045 | 5.922 |
Note 1: The above specified values are calculated according to Appendix B. Note 2: See Appendix C for nominal resistance. | |||||
Durability: The Cornerstone of Performance
One of the most critical aspects of durability in electrical components is thermal endurance. The PEW QZ Class 130 wire is engineered to operate continuously at temperatures up to 130°C, a capability that is crucial in environments where heat generation is significant. Whether it's in the confined space of an electric motor or the high-temperature environment of a transformer, this wire maintains its structural and electrical integrity without degradation. This thermal stability ensures that the wire can withstand prolonged exposure to elevated temperatures, reducing the risk of thermal breakdown and extending the operational life of the equipment.
Mechanical resilience is another key factor in the durability of the PEW QZ Class 130 wire. The wire is designed to withstand significant mechanical stress, including bending, coiling, and vibration, without compromising its performance. This is particularly important in applications such as automotive sensors, where the wire may be subjected to continuous movement and physical stress. The high tensile strength and flexibility of the wire ensure that it can endure these conditions without breaking or deforming, maintaining its electrical conductivity and insulation properties.
In industrial environments, wires are often exposed to various chemicals and solvents that can degrade the insulation material over time. The PEW QZ Class 130 wire features a high-quality polyester enamel insulation that provides excellent resistance to common chemicals and solvents. This chemical resistance ensures that the wire remains protected from environmental factors that could otherwise lead to insulation breakdown, thereby enhancing its overall durability and longevity.
While durability is a standout feature of the PEW QZ Class 130 wire, it also offers other essential characteristics that make it a versatile choice for a wide range of applications. The wire is made from high-purity copper, ensuring excellent electrical conductivity and efficiency. Available in a range of diameters, it can be customized to meet specific application requirements. Additionally, the wire complies with international standards such as GB/T6109 and IEC60317, and is certified under ISO 9001 and RoHS, ensuring high-quality manufacturing and environmental compliance.
The PEW QZ Class 130 wire's durability makes it an ideal choice for applications where reliability and longevity are critical. In electric motors, its thermal and mechanical resilience ensures continuous operation without the risk of failure. In transformers, its ability to withstand high temperatures and chemical exposure enhances the overall efficiency and lifespan of the equipment. In consumer electronics, its durability ensures consistent performance over time, reducing the need for frequent replacements.
The PEW QZ Class 130 Polyester Enameled Copper Round Wire is a testament to durability in electrical components. Its thermal endurance, mechanical resilience, and chemical resistance make it a reliable choice for applications where long-term performance is essential. Whether in industrial machinery, automotive systems, or consumer electronics, this wire stands up to the challenges of demanding environments, ensuring that your electrical systems remain operational and efficient over time.
For enameled wires with a nominal conductor diameter of 0.063 mm or more, the resistance value is not specified.After the negotiation between the supplier and the buyer, the enameled wire with a nominal diameter of 0.063mm or more and 1.000mm or less can be used for resistance measurement.
Conductor nominal diameter / mm | Resistance Ω/m | Conductor nominal diameter / mm | Resistance Ω/m | ||
Minimum value | Maximum | Minimum value | Maximum | ||
0.013 | 60.46 | 73.89 | 0.036 | 15.16 | 18.42 |
0.020 | 48.97 | 59.85 | 0.040 | 12.28 | 14.92 |
0.022 | 40.47 | 49.47 | 0.045 | 9.705 | 11.79 |
0.025 | 31.34 | 38.31 | 0.050 | 7.922 | 9.489 |
0.023 | 24.99 | 30.54 | 0.056 | 6.316 | 7.565 |
0.032 | 19.13 | 23.38 | 0.063 | 5.045 | 5.922 |
Note 1: The above specified values are calculated according to Appendix B. Note 2: See Appendix C for nominal resistance. | |||||
Durability: The Cornerstone of Performance
One of the most critical aspects of durability in electrical components is thermal endurance. The PEW QZ Class 130 wire is engineered to operate continuously at temperatures up to 130°C, a capability that is crucial in environments where heat generation is significant. Whether it's in the confined space of an electric motor or the high-temperature environment of a transformer, this wire maintains its structural and electrical integrity without degradation. This thermal stability ensures that the wire can withstand prolonged exposure to elevated temperatures, reducing the risk of thermal breakdown and extending the operational life of the equipment.
Mechanical resilience is another key factor in the durability of the PEW QZ Class 130 wire. The wire is designed to withstand significant mechanical stress, including bending, coiling, and vibration, without compromising its performance. This is particularly important in applications such as automotive sensors, where the wire may be subjected to continuous movement and physical stress. The high tensile strength and flexibility of the wire ensure that it can endure these conditions without breaking or deforming, maintaining its electrical conductivity and insulation properties.
In industrial environments, wires are often exposed to various chemicals and solvents that can degrade the insulation material over time. The PEW QZ Class 130 wire features a high-quality polyester enamel insulation that provides excellent resistance to common chemicals and solvents. This chemical resistance ensures that the wire remains protected from environmental factors that could otherwise lead to insulation breakdown, thereby enhancing its overall durability and longevity.
While durability is a standout feature of the PEW QZ Class 130 wire, it also offers other essential characteristics that make it a versatile choice for a wide range of applications. The wire is made from high-purity copper, ensuring excellent electrical conductivity and efficiency. Available in a range of diameters, it can be customized to meet specific application requirements. Additionally, the wire complies with international standards such as GB/T6109 and IEC60317, and is certified under ISO 9001 and RoHS, ensuring high-quality manufacturing and environmental compliance.
The PEW QZ Class 130 wire's durability makes it an ideal choice for applications where reliability and longevity are critical. In electric motors, its thermal and mechanical resilience ensures continuous operation without the risk of failure. In transformers, its ability to withstand high temperatures and chemical exposure enhances the overall efficiency and lifespan of the equipment. In consumer electronics, its durability ensures consistent performance over time, reducing the need for frequent replacements.
The PEW QZ Class 130 Polyester Enameled Copper Round Wire is a testament to durability in electrical components. Its thermal endurance, mechanical resilience, and chemical resistance make it a reliable choice for applications where long-term performance is essential. Whether in industrial machinery, automotive systems, or consumer electronics, this wire stands up to the challenges of demanding environments, ensuring that your electrical systems remain operational and efficient over time.
