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العربيةThe production of Polyurethane Enameled Copper Wiring is a simple procedure. The production of Polyurethane Enameled Copper Wire starts with an oxygen-free copper rod. The resulting flat copper wire is then polished, annealed, and covered with a modified polyurethane paint. Once this process is complete, the wire is ready to be soldered. Polyurethane Enameled Copper Wire is ideal for electrical applications, where the wire must be flexible, pliable, and conductive.
In addition to being stronger and more conductive, Polyurethane Enameled Copper Wiring also offers a greater degree of fire resistance than Enamelled Copper Wire. This wire is resistant to high temperatures and is less likely to catch fire. While some Polyurethane varieties can withstand high temperatures, some are not suitable for direct soldering. If you want to buy Polyurethane Enameled Copper Wire, consider contacting a reputable manufacturer. They should have a good customer support team.
Axalta has a strong relationship with the international magnet wire industry and constantly develops new technologies. Their custom wire enamel solutions have improved motor performance. With a diverse chemical wire enamel portfolio, Axalta offers a complete solution for virtually any electrical application. The company also offers a self-soldering Polyurethane Enameled Copper Wire range for all applications. These products are ideal for many applications, including power transmission, instrumentation, and winding coils.
Durability is an important factor in wire performance. If the wire is not lubricated, it will thin out and have a smaller cross-sectional area. This will ultimately cause the wire to break or scrap. The results of the tests will be reported as the average of five tests. There are many factors to consider when buying Polyurethane Enameled Copper Wire, but here are a few of the most important ones:
The breakdown voltage of a wire depends on the material and the thickness of its covering. There are three grades of FPU, with higher grades offering higher breakdown voltages. Moreover, the temperature class of the wire is important for its service life. The lower the temperature, the longer it will serve as a conductor. For example, if it is rated for 20,000 hours of service, it should be used in electrical circuits.
The low friction coefficient of the enameled wires is determined with the help of static friction testers. According to the GB/T 4074.3-2008 standard, a test bench using a JMC-I static friction tester has an inclining plane with a sliding block of 500 g started to slip on a wire track. The specimen was then fixed to the inclining plane with a sliding block.
In the winding process, lubrication is applied on the surface of the enamelled wire. The lubricant reduces the risk of wire failure and ensures uniform winding properties. Furthermore, the lubricant prevents the enamelled wire from de-reeling and elongation. As a result, the customers can be assured of good de-reeling properties.
The resistance of enameled wires is dependent on their outer diameter and the fluorine content. Increasing fluorine content reduces the friction coefficient of the enameled wires. Hence, the higher the fluorine content in the coating, the lower its friction coefficient will be. Fluorine atoms have larger radius than hydrogen atoms, which reduces the friction coefficient. Fluorine atoms are shielded from carbon atoms and therefore have lower friction coefficient.
Enamelled copper wire is a versatile material. Its use extends beyond electrical appliances. For example, it is used in motors, transformers, and solenoid coils. Additionally, it is a good choice for transformers. It is also soldered easily, which makes it an ideal material for these uses. These are just a few of the advantages of Polyurethane Enameled Copper Wire.
Aside from its electrical conductivity, the coating of polyurethane wire is highly resistant to heat. It can also be a good choice for wiring electrical ballasts and smaller transformers. The chemical resistance and mechanical stability of the coatings are significant benefits. The wires coated with polyurethane have the potential to withstand the heat generated by electrical equipment. However, there is one major drawback to polyurethane wire: it may react with the electrical field if exposed to high heat. This electro-chemical reaction can cause a short circuit, which is not always a good thing.
