Loose Sleeve Stranded Underwater Fiber Optic Cable

Loose Sleeve Stranded Underwater Fiber Optic Cable

Fiber Optics
Oil-Filled Loose Tubing
Steel Wire Armor
PE inner jacket
Water Resistant Tape
Rip Cord
Wrinkled Steel Tape Armor
PE Outer Jacket

Standard:
GR409-CORE TIA/EIA 568B.3 ICEA-S-83-59

Cable Mechanical Properties:

Minimum Bending Radius
Allowable Squash Force
Maximum Pressure
Temperature Range
Wrap Around
Recurrent Force
Installed: 20 x OD Actual: 10 x OD
875N/cm (500lb/in 3.5N/cm (Lg)
2000N
Operating Temperature Range: -40°C to +70°C Storage Temperature Range: -50°C to +70°C
20 weeks for armored cables, 100 weeks for unarmored cables
2.9 N.m (J) 3*2 impacts

Fiber Optic Cable Parameters:

Fiber Core Number
Nominal Weight (kg/km)
Nominal Weight (lb/kft)
Nominal Outer Diameter (мм)
Nominal Outside Diameter (in)
Maximum Tension
2-24
650
436.24
20.3
0.798
8000/1800
2650/595
26-36
716
480.54
21.6
0.849
8000/1800
2650/595
38-72
1008
676.51
25.2
0.991
8000/1800
2650/595

Applications:

Loose-set laminated fiber optic cable underwater has good tensile strength, lateral compression resistance and excellent mechanical properties, and can be well adapted to the surrounding working environment. The small diameter and light weight, combined with good tensile strength and lateral compression resistance, make them suitable for underwater working environments and are used to connect communication equipment and persistent information systems.
Loose-sleeved laminated stranded underwater fiber optic cables contain 5-36 optical fibers, consisting of a total of 3 layers of loose-sleeved tubing and filler around a central reinforcing key, plus a PE outer jacket. Each bundle contains 4-12 fibers, and solid or multi-stranded steel wire with polyethylene is usually used as the central reinforcement bond. If a metallic reinforcement bond is not required, FRP can be used as the center reinforcement bond. Spun sand or glass filaments are used around the bundle to provide protection and increase the tensile strength. The first layer of this cable is a PE inner jacket and crumpled steel tape armor, the second layer is a PE inner jacket and steel wire armor, followed by a PE outer jacket. Adding a layer of aluminum tape inside the sheath provides moisture resistance and shielding, and adding a cut cord inside the sheath facilitates the movement of the fiber optic cable.

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