| Quantity: | |
|---|---|
Our irradiation crosslinked LSZH HFFR (Low Smoke Zero Halogen, Halogen Free Flame Retardant) sheath compound is engineered with a comprehensive set of properties and key features specifically tailored to meet the demanding requirements of energy storage wire harness applications:
1. Flame Retardancy: Enhanced through irradiation crosslinking, our LSZH HFFR sheath compound offers superior flame retardancy. In the event of a fire, it suppresses flame propagation and minimizes smoke emission, ensuring the safety of personnel and equipment in energy storage installations.
2. Mechanical Strength: The crosslinking process significantly enhances the mechanical strength of our sheath compound, providing robust protection against abrasion, impact, and vibration. This ensures the long-term durability and reliability of energy storage wire harnesses, even in harsh operating conditions.
3. Thermal Stability: Our LSZH HFFR sheath compound exhibits exceptional thermal stability, maintaining its integrity and performance over a wide temperature range. This property is crucial in energy storage applications, where temperature fluctuations can occur due to charging, discharging, and ambient conditions.
4. Chemical Resistance: Energy storage systems are exposed to various chemical substances, including electrolytes and other materials used in battery cells. Our LSZH HFFR sheath compound offers excellent resistance to these chemicals, ensuring long-term reliability and performance in energy storage wire harnesses.
5. Electrical Insulation: With high electrical insulation properties, our sheath compound provides reliable insulation for power cables and electrical connections in energy storage systems. It minimizes the risk of electrical shorts and ensures stable voltage transmission, optimizing the efficiency and safety of energy storage installations.
6. Environmental Sustainability: Formulated without halogens, our LSZH HFFR sheath compound promotes environmental sustainability by reducing the release of toxic gases in the event of a fire. This eco-friendly formulation aligns with the growing emphasis on sustainability in energy storage applications.
In summary, our irradiation crosslinked LSZH HFFR sheath compound offers a combination of superior properties and key features that make it an ideal choice for energy storage wire harnesses. With enhanced flame retardancy, mechanical strength, thermal stability, and chemical resistance, our compound ensures the safety, reliability, and sustainability of energy storage systems in a wide range of applications.
