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| The process of removing sheaths of any section of offshore cabling is time consuming, and always allows for the possibility of damage to the insulator due to the rubber-based, thermo-setting nature of the cable jacket. Rip Cord technology not only reduces working hours but also prevents damage of insulators and reduces the risk of safety accidents. |
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Status |
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Before |
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After |
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| Detail |
- Damages to the sheath and insulator
can occur when removing the first
sheath
- Injuries to hands are incurred when
using removal blades
- Time spent on removing is lengthy
and used inefficiently
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- Sheath is easily removed by inserting
rip cord under the first sheath
- Sheath is easily removed,
injury-free
- Time spent on removing is short
and used efficiently
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| Cable Structure |
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 Thermal resistant filler technology |
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Widely-used technology currently employs the use of the same compound for filler stuffing between insulated wires and for the first sheath.
Our innovative product is up to 5% lighter than standard offshore cabling.
This is achieved by using desorption and thermal resistant filler improving performance substantially in removal of sheath.
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| Insulator Wrinkle Improvement |
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| Reduces wrinkles by upgrading the quality of the insulation compound |
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| Paint Resistant Cable development and Patent Registration |
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| TMC has developed a paint resistant cabling system which prevents any possible changes in specifications of the cabling caused by marine paint. |
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