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The cable consists of individually color coded 900µm secondary coated fibers reinforced with aramid yarns and covered with UV and flame resistant LSZH Sheath. The cable cross section is fig 8 made with a steel wire strength member.
Q1：Are you the real manufacturer?
A1：Yes. We are the real manufacturer with 15+ years'history.Have the best price from the factory.
Q2：Can you put my brand name (logo) on these products?
A2：Yes! The professional OEM services will be welcomed to us. Our factory accepts to make the logo free for bulk orders.
Q3：Can you accept small order?
A3：Yes, small order is available .We support new project of our customers as we know business is always from small order.
Q4：Can you provide us more other products to us to help us to save more shipping costs?
A4: Yes. OPGW cable,ADSS cable,ACSR Cable,FTTH Drop cable,outdoor fiber cable,indoor fiber cable,fiber cable Accessories,patch cord,pigtail,Air blow fiber cable is the main products line of Factory.
Q5：What is your delivery time?
A5：Usually within 10 working days.
If you have any questions, please contact us by email and we will contact you as soon as possible. We look forward to your inquiry.
The cable consists of individually color coded 900µm secondary coated fibers reinforced with aramid yarns and covered with UV and flame resistant LSZH Sheath.
The cable cross section is fig 8 made with a steel wire strength member.
Fi ber: 1-12 fibers
900µm tight bu ffer
St rength Member: Aramid yarn
Messenger Member: Steel wire or non-metallic member.
Outer Sheath: UV and fl ame r esistant LS ZH
Fiber Type: G.652D, G.657A1 or G.657A2 single mode fiber
Good UV and flame resistant.
Compact, soft, flexible, easy to install.
Fig8 self-supporting design.
Used in access network or as access cable from outdoor to indoor in customer premises network.
Used as access building cable in premises distribution system, especially used in indoor or outdoor aerial access cabling.
Structure and Technical Specifications
Allowable Tensile Load
Allowable Crush Resistance
|>4||Available upon customer’s request|
Note： This datasheet can only be a reference, but not a supplement to the contract. Please contact our sales people for more detailed information.
① Color the optical fiber
Optical fiber coloring refers to a process operation in which a certain color of ink is coated on the surface of the natural fiber and cured to maintain strong adhesion. Its purpose is to facilitate the distinction during connection; to facilitate traceability during line maintenance; to better protect the optical fiber and enhance the mechanical properties of the optical fiber.
In the coloring process, it is necessary to control the points such as pay-off, take-up tension control, line quality, coloring speed, mold base temperature, coloring mold size, ink pressure and curing power.
② Form to loose tube
Overmolding is also the secondary coating of the optical fiber. In order to prevent the optical fiber from directly contacting with the outside world and further protect the optical fiber, it is necessary to effectively protect the optical fiber once coated. We call this production process overmolding. The purpose of the plastic sleeve is to provide further mechanical protection against compression and tension for the optical fiber; to generate excess length of the optical fiber, so that the optical cable has a certain amount of expansion and contraction, and ensure that the optical cable has superior mechanical, physical and environmental performance.
The key control points of sleeve molding are: take-up and pay-off line tension, production speed, water temperature, casing routing, extruder temperature, grease temperature and pressure, etc.
③ SZ Strand
The layered stranded optical cable is to twist several tight-buffered optical fibers, loose-buffered optical fibers, optical fiber bundles or ribbon optical fibers with strength members, water-blocking materials, tying yarns and other components according to certain rules to form a layered stranded structure optical cable core. a process operation. The cabling of the skeleton optical cable is different from the layer-stranded optical cable. The cabling of the skeleton optical cable is to rotate the optical fiber, the optical fiber ribbon or the loose tube into the skeleton groove. The purpose of cabling is to increase the flexibility and bendability of the optical cable, improve the tensile strength of the optical cable and improve the temperature characteristics of the optical cable.
The key control points of cabling are: take-up and pay-off tension, production speed, stranding pitch, stranding angle, yarn tying tension, yarn tying pitch and stranding die, etc.
④ Form to cable
In order to protect the cable core from external mechanical, thermochemical, moisture and biological bites after the optical fiber is cabled, the operation process of extruding a layer of sheath outside the cable core is the sheath. There must be a jacket on the outside of the fiber optic cable core, or even an outer jacket to protect it.
The key control points of the sheathing process are mainly the tension of the take-up and release line, the mold, the pulling speed, the vacuum degree, the water temperature, the temperature of the extruder, and the routing of the optical cable (yarn, steel wire, etc.).
We have a faster recovery rate.
We have a professional technical team.
The company has a number of cable production lines.