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Fibre Glass Insulated Flexible Cables It overcomes the problem of other conventional wires…. and is more, TEAR RESISTANT
The structure of insulation is oriented biaxially. Propagation of tear is difficult. Uniaxial orientation makes it easy to tear the insulation along the axis of wire.
Dielectric Strength
The multiple layer construction of Mylar insures high di-electric quality of insulation. Any flaw is
limited to a single layer of the tape. The wrapping and braiding process Places the Insulation
concentrically around the conductor and does not force it into the interstices between the conductor.
Higher Cut Through And Abrasion Resistant
This Insulation is remarkable resistant to cut through and scrap abrasion. Thin cross sections of Mylar 0.004†to 0.005†Thick wall ensure greater cut through stress and general abuse then 0.010†to 0.020†of insulation such as PVC, Nylon jacketed PVC and others.
High Tensile Strength
This Insulations add significantly to the tensile strength of the insulated conductor through the mechanism of load transfer because the insulation has such superior break strength. It will support the wire at each point where excessive stretching occurs. Wire insulated with conventional material will break since there is no support from the insulation.
Working Temperature
For short periods 155 c.
Continuous 130 c.
Higher Flexlife
The insulation is produced by synthetic film and fibre. It has very high flex life in comparison to any other insulating material.
Construction
- CONDUCTOR Bunch Stranded Bare/Tinned/Silvered Copper as per IS : 8130-1976, Class-5.
- INSULATION Mylar ( Biaxially oriented PTP Film ) wrapped & Laminated with Fibre-Glass outer braid.
Working Voltage : 600/1100V.A.C.R.M.S.
Available Colours : Red, Yellow, Blue, Black, and Natural.
Size Range : 0.50 Sq. mm.To 70 Sq. mm.
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