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Processing method for large-caliber buried glass reinforced plastic sand inclusion pipe

A technology of glass fiber reinforced plastic sand inclusion and processing method, which is applied in the field of composite pipes, can solve the problems of poor wear resistance of the inner lining layer, fiber tensile damage, hidden safety hazards, etc., and achieve the effects of moderate overall cost, small resistance, and reduced project cost

Inactive Publication Date: 2017-01-04
民勤县威瑞环保有限责任公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

But there are still some deficiencies, such as the wear resistance of the inner lining is slightly poor, the inner lining has been washed by a large amount of water for a long time, the pipe wall has obvious delamination, fiber tensile damage, shedding, fracture and other phenomena have brought great safety hazards. Hidden dangers, and the cost is relatively high, and it is not environmentally friendly

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0016] A processing method of a large-diameter buried glass fiber reinforced plastic sand-filled pipe, comprising the following steps:

[0017] (1) The modified steel fiber, modified carbon fiber and modified glass fiber are mixed into a fiber mat in a weight ratio of 5:15:80, and then immersed in the unsaturated polyester resin to form a fiber mat containing 80wt% of the unsaturated polyester resin Layer A; the modified steel fiber is obtained by coating the surface of the steel fiber, and the modified liquid used for the coating treatment is prepared from silicone oil, silane coupling agent, and water in a weight ratio of 1:0.01:100. The modified carbon fiber is obtained by electrochemically oxidizing carbon fiber; the modified glass fiber is obtained by treating with an aluminate coupling agent;

[0018] (2) The modified glass fiber and the modified carbon fiber are mixed into a fiber mat at a weight ratio of 85:15, and then immersed in the unsaturated polyester resin to fo...

Embodiment 2

[0023] A processing method of a large-diameter buried glass fiber reinforced plastic sand-filled pipe, comprising the following steps:

[0024] (1) The modified steel fiber, modified carbon fiber and modified glass fiber are mixed into a fiber mat in a weight ratio of 15:20:65, and then immersed in the unsaturated polyester resin to form a fiber mat containing 90wt% of the unsaturated polyester resin Layer A; the modified steel fiber is obtained by coating the surface of the steel fiber, and the modified liquid used for the coating treatment is prepared from silicone oil, silane coupling agent, and water in a weight ratio of 1:0.01:100. The modified carbon fiber is obtained by electrochemically oxidizing carbon fiber; the modified glass fiber is obtained by treating with an aluminate coupling agent;

[0025] (2) Mix the modified glass fiber and modified carbon fiber into a fiber mat at a weight ratio of 95:5, and immerse it in the unsaturated polyester resin to form a fiber ma...

Embodiment 3

[0030] A processing method of a large-diameter buried glass fiber reinforced plastic sand-filled pipe, comprising the following steps:

[0031] (1) Mix the modified steel fiber, modified carbon fiber and modified glass fiber into a fiber mat in a weight ratio of 10:18:72, and immerse it in the unsaturated polyester resin to form a fiber mat containing 85wt% of the unsaturated polyester resin Layer A; the modified steel fiber is obtained by coating the surface of the steel fiber, and the modified liquid used for the coating treatment is prepared from silicone oil, silane coupling agent, and water in a weight ratio of 1:0.01:100. The modified carbon fiber is obtained by electrochemically oxidizing carbon fiber; the modified glass fiber is obtained by treating with an aluminate coupling agent;

[0032] (2) The modified glass fiber and the modified carbon fiber are mixed into a fiber mat in a weight ratio of 90:10, and then immersed in the unsaturated polyester resin to form a fib...

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Abstract

The invention discloses a processing method for a large-caliber buried glass reinforced plastic sand inclusion pipe, and belongs to the technical field of composite pipes. The processing method includes the steps that modified steel fibers, modified carbon fibers and modified glass fibers are woven into a fiber mat, the fiber mat is subjected to plastic soaking treatment, and a fiber mat layer A is obtained; modified glass fibers and modified carbon fibers are woven into a fiber mat, the fiber mat is subjected to plastic soaking treatment, and a fiber mat layer B is obtained; then the fiber mat layer A is processed into a lining layer on a sand inclusion pipe mold, and the fiber mat layer B is processed into an inner protection layer on the lining layer; quartz sand, chopped glass fibers, magnesium borate whiskers and unsaturated polyester resin are mixed into sand strips, the sand strips are processed into a sand inclusion layer on the inner protection layer, then the fiber mat layer B is processed into an outer protection layer on the sand inclusion layer, then unsaturated polyester resin, and chopped glass fibers and magnesium borate whiskers are mixed on the outer protection layer to be processed into an outer surface layer till the designed wall thickness is completed; finally, finishing, demolding, cleaning and testing are carried out after solidifying, and the finished product can be obtained.

Description

technical field [0001] The invention belongs to the technical field of composite pipes, and relates to the manufacture of glass fiber reinforced plastic sand-filled pipes, in particular to a processing method of large-diameter buried glass fiber reinforced plastic sand-filled pipes Background technique [0002] At present, the large-diameter drainage and sewage pipes used in China basically use traditional concrete pipes and glass fiber reinforced plastic sand pipes. The traditional concrete pipes cannot be constructed quickly due to the need for concrete bottom plates and a long curing period during engineering pipe drainage. Concrete pipes are heavy, which seriously increases the difficulty of construction. Considering the above shortcomings, most of the light-weight and high-strength glass fiber reinforced plastic sand pipes are designed in urban road reconstruction without foundation. [0003] FRP sand-filled pipeline is a new type of FRP composite pipeline made of unsa...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B29C70/34
CPCB29C70/34
Inventor 许开强
Owner 民勤县威瑞环保有限责任公司
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