C08/C12Combination Fiber Mooring Line
(Core/Cover): Polyester ＆ Superpoly
Standard: ISO 2307
The rope is made of high-strength polyester and superpoly material with perfect proportion and twist. This product fully combines the advantages of the two materials and has a higher cost performance. Its high breaking strength and wear resistance are equivalent to 100% polyester fiber, but its weight is reduced by 20% concurrently, the rope is round and solid, with smooth surface and easy operation, which is a more efficient rope.
- Blend of polyester and polypropylene, higher cost performance
- 20% Less weight than all polyester rope, floating
- Low elongation, easy to handle
- Durable and flexible
- General working line
- Mooring tails
- Primary mooring line
- Secondary mooring lines
Specifications are for unspliced strengths, strength will decreases by about 10% after splicing.
Custom size and length available by request.
Mooring lines include primary mooring lines and mooring tails. The primary mooring line which requires high strength and light weight is used to fix the vessel on the shore; The mooring tails that connect the primary line and the mooring bollard should have good elasticity and wear resistance, provide the extension performance for the mooring system, and minimize the impact load caused by wind or waves.
The primary mooring lines and mooring tail can be connected with each other through shackles, splicing or cow hitch, which is convenient for releasing, mooring and replacing mooring tails, and prolongs the service life of the whole mooring system. The best way to improve the stability and efficiency of the mooring system is to select the most suitable mooring line according to the needs.
Rope construction comparison
8-Strand: A braided construction with good strength and elongation. This construction can disperse wear without excessive damage to fibers, so it has good wear resistance.
12 Strand: The hollow single braided construction is very easy to splice, with higher strength and lower elongation. This construction can withstand more internal fiber damage and strength loss caused by cyclic load.