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Reinforcement for thermoplastic GFRP (Glass Fiber Reinforced Polymer) butterfly cable and production process of reinforcement

A butterfly optical cable and production process technology, applied in the direction of fiber mechanical structure, etc., can solve the problems of low production speed and high use cost, and achieve the effect of high production speed, low use cost and high cost performance.

Inactive Publication Date: 2013-12-25
南通科鼎复合材料科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This process must be completed by heating in the mold, so the production speed is low, only about 5 meters per minute
KFRP surface coating requires a special plastic coating production line for plastic coating production, and the cost of use is high

Method used

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  • Reinforcement for thermoplastic GFRP (Glass Fiber Reinforced Polymer) butterfly cable and production process of reinforcement
  • Reinforcement for thermoplastic GFRP (Glass Fiber Reinforced Polymer) butterfly cable and production process of reinforcement

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0019] Such as Figure 1-2 As shown, the reinforcing member for a thermoplastic GFRP butterfly optical cable of the present invention includes a body 1 which is a round rod bonded by glass fiber and resin glue, and the surface of the body 1 is coated with a plastic coating 2.

[0020] Thermoplastic GFRP butterfly-shaped fiber optic cable reinforcement production process, multiple glass fibers are discharged from their own active pay-off racks, and they pass through the yarn guide that can lead the glass fibers into the center of the forming mold. The glass fibers are surface treated through a solvent-impregnated resin hopper. The internal temperature is 60℃. The glass fiber in the hopper is immersed in the alcohol-soluble nylon resin solution in the hopper at a constant speed of 40m / min, dried in a drying tunnel at a temperature of 120℃, and then enters into the extrusion mold through the guide holes of the extrusion mold. The mold is ejected for the second impregnation of resin ...

Embodiment 2

[0023] Thermoplastic GFRP butterfly-shaped fiber optic cable reinforcement production process, multiple glass fibers are discharged from their own active pay-off racks, and they pass through the yarn guide that can lead the glass fibers into the center of the forming mold. The glass fibers are surface treated through a solvent-impregnated resin hopper. The internal temperature is 65°C, the glass fiber in the hopper is immersed in the alcohol-soluble nylon resin solution in the hopper at a constant speed of 50m / min, dried in a drying tunnel at a temperature of 130°C, and then enters the extrusion mold through the guide holes of the extrusion mold. The mold is ejected for the second impregnation of resin glue. The volume content of the resin glue is controlled by the mold to be 18%. The mold is cooled and molded at a temperature of 55°C, and then air-cooled to room temperature by three blowers, and then coated by extrusion. A layer of plastic coating 2, which is water-cooled by a ...

Embodiment 3

[0026] Thermoplastic GFRP butterfly-shaped fiber optic cable reinforcement production process, multiple glass fibers are discharged from their own active pay-off racks, and they pass through the yarn guide that can lead the glass fibers into the center of the forming mold. The glass fibers are surface treated through a solvent-impregnated resin hopper. The internal temperature is 70°C, the glass fiber in the hopper is immersed in the alcohol-soluble nylon resin solution in the hopper at a constant speed of 60 m / min, dried in a drying tunnel at a temperature of 150°C, and then enters the extrusion mold through the guide holes The mold is ejected for the second impregnation of resin glue. The volume content of the resin glue is controlled by the mold to 20%. The mold is cooled and molded at a temperature of 60°C, and then air-cooled to room temperature by three blowers, and then extrusion coated A layer of plastic coating 2, after coating, it is water-cooled by a 6-meter cooling w...

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Abstract

The invention discloses a reinforcement for a thermoplastic GFRP (Glass Fiber Reinforced Polymer) butterfly cable and a production process of the reinforcement. The reinforcement for the thermoplastic GFRP butterfly cable is characterized by comprising a reinforcement body, wherein the reinforcement body is a round rod formed by adhering glass fiber and thermoplastic resin, and a plastic-coated layer is coated on the surface of the reinforcement layer. The production process of the thermoplastic GFRP butterfly cable comprises the steps of: letting the glass fiber out, guiding in and forming, processing the surface, drying in a drying tunnel, secondarily dipping resin adhesive, cooling for forming, air-cooling to room temperature, coating the plastic-coated layer, water-cooling in a water trough, mold-stripping and then blowing, dragging, rolling a tension tower, winding on a rolling rack and completing all production processes of the reinforcement so that the reinforcement of the thermoplastic GFRP butterfly cable is obtained. The reinforcement has the advantages of minimum bending radius of not more than 10D(material diameter), tensile strength of not less than 1100Mpa, elongation at break of not more than 4 percent, tensile modulus of not less than 50Gpa, high production speed, low use cost and high cost performance.

Description

Technical field [0001] The invention relates to the field of optical cable materials, in particular to a reinforcing member for a thermoplastic GFRP butterfly optical cable. [0002] The invention relates to the field of optical cable materials, in particular to a production process of a reinforcing member for a thermoplastic GFRP butterfly optical cable. Background technique [0003] FRP fiber optic cable reinforcement is an indispensable fiber optic cable reinforcement for non-metallic fiber optic cables and butterfly cables for FTTH. Although the currently used thermosetting KFRP fiber optic cable reinforcement has a small bending radius, the reinforcement material used is expensive aramid fiber, which is not cost-effective. . Another type of thermosetting GFRP with a small bending radius cannot meet the small bending performance requirements of butterfly optical cables. The production process of thermosetting KFRP and GFRP fiber optic cable reinforcement is a typical FRP pult...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G02B6/44
Inventor 周惠斌
Owner 南通科鼎复合材料科技有限公司