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Hangzhou Meilin New Material Technology Co., Ltd. is China ODM/OEM High Voltage, Ultra-High Pressure Heating Cable Compound Suppliers and Wholesale High Voltage, Ultra-High Pressure Heating Cable Compound, we were established in July 1994 (formerly known as Zhejiang Lin'an Hongyan Plastic Factory). The company has two factories located at 619 Linglongshan Road and 259 Xingyu Street, Lingqiu Street, Linglong Industrial Park, Lin'an District, Hangzhou City. The registered capital of the company is 75 million yuan, covering an area of over 18000 square meters and a building area of over 30000 square meters. Currently, modern industrial factories and 18 advanced automated production lines have been built. The new factory area will be produced in 2021, making it the cleanest and most beautiful professional cable material manufacturer in the entire region—agreement conditions.
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When using high-voltage and ultra-high-voltage heating cable composites in harsh environments (such as extreme temperature or humidity), choosing the right materials and design is key to ensuring cable reliability and performance. Here are some important considerations:
1. High and low temperature performance
Material selection: In high and low temperature environments, the selected heating cable composite must have excellent thermal stability and low temperature flexibility. For example, use materials such as high-temperature silicone rubber and fluoroplastics (such as PTFE and FEP), which not only have high temperature resistance, but also maintain flexibility and electrical performance in low temperature environments.
Design: In extreme temperature environments, the cable design must be able to ensure the heat dissipation capacity of the heating cable to avoid damage to the insulation layer due to excessive temperature or brittleness of the cable due to excessive temperature. The effects of thermal expansion coefficient and thermal cycle need to be considered during design.
2. Moisture and corrosion resistance
Material selection: In high humidity or humid environments, the outer layer of the cable needs to have waterproof and corrosion resistance. Commonly used materials include polyethylene (PE), polyvinyl chloride (PVC), **thermoplastic elastomer (TPE)**, etc., which can effectively block the penetration of moisture.
Design plan: When designing, it is necessary to ensure that the outer sheath of the cable has sufficient waterproofness, while considering the cable's ability to resist electrical breakdown in a humid environment. Special coatings or sealing designs can be used to enhance the cable's moisture resistance.
3. Electrical insulation performance
Material selection: High-voltage and ultra-high-voltage cables require the use of high-insulation materials, such as cross-linked polyethylene (XLPE), fluoroplastics, ceramic insulation materials, etc., to ensure that the cable can provide sufficient electrical insulation performance in a high-voltage environment to prevent electrical failures.
Design plan: The insulation layer of the cable should be designed to be able to cope with the electric field distribution in extreme environments, and avoid insulation breakdown or leakage current caused by excessive electric field strength. At the same time, the design should consider the changes in insulation performance caused by changes in ambient temperature.
4. Mechanical strength and tensile properties
Material selection: In harsh environments, cables must not only cope with changes in temperature and humidity, but also withstand physical damage such as stretching, twisting or impact. Therefore, the material needs to have high tensile strength and impact resistance, such as high-strength steel wire or reinforced plastic to increase the tensile strength and mechanical strength of the cable.
Design: The outer protection design of the cable needs to take into account mechanical pressure, vibration and external impact. When designing, the cable's resistance to mechanical damage can be enhanced by adding a metal reinforcement layer or using a multi-layer structure.
5. Chemical stability and corrosion resistance
Material selection: In some special harsh environments, such as chemical plants, oil and gas platforms, etc., cables may be exposed to corrosive gases or liquids. At this time, it is necessary to select materials with good chemical resistance and corrosion resistance, such as fluorinated materials (such as PTFE), stainless steel sheaths, chlorinated polyethylene, etc.
Design: When designing, ensure the sealing of the cable outer sheath to prevent chemicals from penetrating and affecting the internal materials. At the same time, when selecting materials, consider the aging or damage effects that long-term exposure to certain chemicals may have on cable materials.
6. Long-term stability and aging resistance
Material selection: High-voltage and ultra-high-voltage cables need to work stably for a long time in extreme environments. Therefore, the selected materials must have excellent aging resistance, such as UV resistance and ozone aging resistance. Materials such as silicone rubber and fluororubber can be selected. The molecular structure of these materials is stable and can effectively resist aging.
Design plan: When designing cables, it is necessary to consider the stability of materials in long-term use to avoid brittleness or loss of elasticity of materials due to factors such as ultraviolet rays, oxygen, and heat, which will affect the performance and life of the cable.
7. Certification and standards
Industry standards: When selecting and designing high-voltage and ultra-high-voltage heating cable composite materials, ensure that the selected materials and design plans comply with relevant industry standards and certifications, such as IEC (International Electrotechnical Commission) standards, UL certification, CE certification, etc., to ensure the safety, reliability and compliance of the product.
Summary
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