Shanghai Gengyun Industrial Co., Ltd
Tight Buffered Flame Retardant Optical Fiber
In structured cabling systems, especially in environments with limited space and extremely high security requirements such as inside buildings and data center computer rooms, (Tight Buffered Flame Retardant Optical Fiber) is undoubtedly the preferred solution. It combines outstanding mechanical performance with extremely high safety, providing a reliable transmission medium for modern high-speed networks.
Core advantages
Outstanding mechanical performance and convenience: Unlike the loose-fitting structure, the 900μm tight buffer layer of the tight-fitting fiber is directly covered on the fiber cladding. This enables the optical cable to have excellent compressive, impact and bending resistance capabilities, and be more capable of withstanding frequent movement and pulling. Its structure is sturdy and can be directly terminated without a fusion box. Standard *.*ST, SC, LC connectors *.* can be used to quickly complete terminal operations, greatly simplifying the installation process and saving time and costs.
Extremely high safety and flame retardancy : These are its most core advantages. The optical cable sheath is made of low smoke zero halogen (LSZH) flame retardant materials. When exposed to fire, it does not release toxic halogen gases, minimizing secondary harm to personnel and equipment to the greatest extent. Meanwhile, its flame-retardant properties can effectively prevent the spread of flames and comply with strict international safety standards (such as OFNR/OFNP grades), which are mandatory requirements for vertical backbone, horizontal cabling and the interior of data centers in buildings.
Space efficiency and design flexibility: The tight-fitting structure allows optical cables to be designed to be smaller and lighter, occupying less space in crowded cable trays, pipes and patch panels. It supports various structures such as single-core and multi-core (like 6-24 cores), and different flame retardant grades can be selected (for example, CMR for indoor main lines and CMP for ventilation ducts) to meet the needs of various complex application scenarios.
In conclusion, Tight-sheathed flame-retardant optical cables , with their outstanding features of sturdiness, safety and flexibility, have become the ideal choice for building high-performance and highly reliable indoor networks, perfectly balancing the two key demands of performance and safety.
Keywords:
1:Tight-sheathed flame-retardant optical cable
2:Anti-bending flame-retardant optical fiber