Dytech® marine rope

40033

Dytech® rope is a textile rope designed for industrial or extreme marine use (aquaculture). Its design, based on a blend of two high-performance fibers, provides excellent resistance to friction, heat and seawater (saline environment). Bi-material Dyneema® and Technora® rope

"A rope originally designed by Nodus Factory for military applications, for use on reels and winches.

See features below
Ø Rope
€5.44
Quantity
  • Secure payment Credit Secure payment Credit
    Card - VISA - MasterCard - Paypal
  • Customer Service Customer Service
    +33 2 97 67 64 83 - 9 am to 5 pm

Description

Composed of Dyneema® and Aramid (Technora®/Kevlar®)fibers protected by an impregnation (Coating) that increases its abrasion resistance and longevity in UV and marine environments,

DYTECH® marine rope from Nodusfactory is used in applications where very high breaking strength and light weight (buoyancy) are required.

Static rope with excellent resistance to bending, abrasion and dynamic friction. It withstands extreme temperatures in the drum perfectly, retaining its strength without the slightest deformation, and retaining its strength perfectly when heated or rubbed.

USE

As a replacement for steel rope and other less heat-resistant textile ropes.

Data sheet

Technical data

Dytech® rope: Dyneema® and Technora® bimaterial blend.

12 plait hollow braid with polyurethane sizing

Dyneema® fiber - Ultra-high-modulus polyethylene - Light gray color

  • Temperature resistance - 140°C
  • 50% loss of strength at 80°C
  • Excellent resistance to UV and chemical agents
  • Very low elongation < 2.5%.

Technora®-Aramide "aromatic polyamides"fiber- black color

  • Excellent temperature resistance - 550°C
  • 50% loss of strength at 300°C
  • Good chemical resistance
  • Very low elongation < 1%.

Accessories: endless sling, textile shackle, etc.

Option: In-house splicing

Benefits

  • Heat- and warp-resistant rope
  • Very good abrasion resistance
  • Easy to splice
  • Use in marine and cold (frost) environments
  • No loss of strength
  • Low elongation = 2.5% to 50% of breaking load