low smoke zero halogen

Mechanical separation method 1) Drum peeling machine processing method. This method is suitable for processing waste wires and cables of the same diameter. This equipment already exists in our country. The Wolverhampton factory in the UK uses this kind of equipment to strip waste wires and cables, and the results are very good. A. Copper and plastic in waste wires and cables can be comprehensively recycled, with a high level of comprehensive utilization; C. The process is simple and easy to mechanize and automate; 2) Cutting type peeling machine processing method. This method is suitable for processing thick cables and wires, and a factory in Xiangfan, my country has been able to produce this equipment.   Low temperature freezing method The cryogenic freezing method is suitable for processing wires and cables of various specifications. The waste wires and cables are first frozen to make the insulation layer brittle, and then crushed by shock to separate the insulation layer from the copper wires.   Chemical peeling method This method uses an organic solvent to dissolve the insulation layer of the waste wire to achieve the purpose of separating the copper wire and the insulation layer. The advantage of this method is that it can obtain high-quality copper wire, but the disadvantage is that it is difficult to process the solution and the price of the solvent is high. The development direction of this technology is to research a cheap, practical and effective solvent; recommended product: control cable   Thermal decomposition method The waste wires and cables are first sheared, and then added to the pyrolysis chamber for pyrolysis by the transport feeder. The pyrolyzed copper wires are sent to the outlet sealing pool by the grate conveyor, and then loaded into the product collector. The copper wires It can be used as raw material for producing refined copper. The gas produced by pyrolysis is sent to the afterburning chamber to burn the combustible substances in it, and then sent to the reactor to absorb the chlorine gas with calcium oxide and then discharged. The generated calcium chloride can be used as a building material.  

In recent years, the demand for safety and environmental consciousness has driven significant advancements in technology. One notable is the increasing popularity of Low Smoke Zero Halogen (LSZH) cables. These cables have gained widespread recognition due to their improved fire safety characteristics and reduced environmental impact. This blog explores the evolving trends and benefits of LSZH cables, making it a valuable topic for Google indexing.   1. Fire Safety Enhancement: LSZH cables are designed to emit low levels of smoke and toxic gases when exposed to fire. Compared to traditional cables, LSZH cables significantly reduce the risk of smoke inhalation, increasing the chances of safe evacuation during emergencies. Governments and regulatory bodies are increasingly mandating the use of LSZH cables in public buildings, transportation systems, and other critical infrastructure.   2. Environmentally Friendly: LSZH cables are manufactured using materials that avoid or minimize the release of hazardous halogens, such as chlorine and fluorine, during combustion. This makes them more environmentally friendly compared to PVC or other halogenated cables. As sustainability becomes a key focus globally, the adoption of LSZH cables is helping organizations reduce their carbon footprint and meet green certification requirements.   3. Broad Application Scope: LSZH cables find applications in various industries, including telecommunications, automotive, aerospace, and marine. As connectivity becomes an integral part of our daily lives, the demand for LSZH cables in data centers, high-speed networks, and telecommunications infrastructure is rapidly increasing. Their ability to resist fire and minimize damage in critical situations makes them an ideal choice for dependable and secure connectivity.   4. Technological Advancements: Continual research and development in cable engineering has led to notable advancements in LSZH cables. Innovations in flame retardant compounds, conductor materials, and insulation techniques have resulted in improved performance and durability. LSZH cables now offer better signal integrity, higher data transfer speeds, and increased resistance to mechanical stress, ensuring reliable performance in demanding environments.   Conclusion: The growing demand for safety and sustainability solutions has propelled the popularity of LSZH cables in the cable industry. Their inherent fire safety characteristics, environmental benefits, and technological advancements make them a preferred choice for many applications. As this trend continues to evolve, it is crucial for consumers and industry professionals to stay informed about the latest developments in LSZH cable technology.   By providing valuable insights into the development and benefits of LSZH cables, this blog aims to facilitate knowledge sharing and contribute to a safer and greener future for the cable industry.