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Non-combustible matrix resin and prepared non-combustible glass fiber reinforced plastic

A matrix resin, glass fiber technology, applied in the direction of coating, etc., can solve the problems of acid resistance, chemical resistance (poor corrosion resistance, low resin content, etc.), achieve good heat resistance and durability, increase thermal decomposition temperature, The effect of excellent mechanical properties

Active Publication Date: 2021-03-26
SUZHOU AITESI ENIRONMENTAL PROTECTION EQUIP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The high-temperature flame-retardant glass fiber reinforced plastic has low resin content, poor chemical resistance (corrosion resistance), and is not acid-resistant. Because aluminum hydroxide and / or magnesium hydroxide will react with acidic media and react to corrode the substrate, affecting the service life ; and the addition of kaolin, fumed silica and talcum powder can not improve the temperature resistance of the matrix

Method used

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  • Non-combustible matrix resin and prepared non-combustible glass fiber reinforced plastic
  • Non-combustible matrix resin and prepared non-combustible glass fiber reinforced plastic
  • Non-combustible matrix resin and prepared non-combustible glass fiber reinforced plastic

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0053]Example 1, Preparation of non-combustible matrix resins

[0054]Component:

[0055]

[0056]Preparation:

[0057]Each raw material is weighed according to the above formulation, and mixed in a mixer equipped with a stirrer to obtain a non-fuel base resin.

[0058]Hereinafter, the formulation of each of the examples is shown in Table 1, and the formulation is prepared in Example 1 as shown in Table 1.

[0059]Table 1, the components of Examples 2 to Example 6

[0060]

[0061]The diluent and curing agent used in Example 2 and Example 3 as in Example 1; the diluent used in Example 4 was propylene glycol, and the curing agent used was six methyltrine, and the non-equivalent control used. The diluent used in the flame retardant acid ester TCPP; the diluent used in Example 5 is an acrylate, and the curing agent used is from 1: 1 to methylbenzenesulfonic acid and six methyl tetramine, the non-combustion used. Sex auxiliary agent is a cigarette agent MOO3The non-combustion aid used in Example 6 is a flamele...

Embodiment 7

[0062]Example 7, Preparation of Non-combustible Glass Fiber Reinforced Plastics (FRP)

[0063]The non-combustible matrix resin produced by Example 1 was prepared to prepare a non-fuel glass fiber reinforced plastic (FRP).

[0064]1) Apply the molded agent wax to the surface of the mold;

[0065]2) Immersion glass fibers in the non-combustible matrix resin obtained in Example 1, and then laid the impregnated glass fibers on the surface of the molded dosing agent, forming a preservative coating 2;

[0066]3) Immersion of the glass fiber in the non-combustible matrix resin obtained in Example 1, and then laid the impregnated glass fibers on the surface of the antiseptic coating 2, the thickness is about 1.6 mm, and the non-fuel fiber reinforcing layer 1 is formed;

[0067]4) Coating a fire lacquer on the surface of the non-fuel cell reinforcing layer 1, the fireproof lacquer is a finished anti-painted, cured at room temperature to form a firepacquet layer 3 to obtain a laminate;

[0068]5) Curing the re...

Embodiment 8

[0069]Example 8, Preparation of Non-combustible Glass Fiber Reinforced Plastics (FRP)

[0070]The non-combustible matrix resin produced by Example 2 is prepared to prepare non-fuel glass fibers reinforced plastic (FRP). The preparation method is the same as in Example 7, which is:

[0071]In step 2), the glass fiber is immersed in the anti-corrosion resin, and the anti-corrosion resin is an epoxy resin E-44;

[0072]In step 3), in the non-combustible matrix resin which is immersed in the glass fibers in Example 2;

[0073]In step 5), the resulting laminate is first cured at room temperature, and then cured again in a curing chamber maintained at 50 ° C.

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PUM

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Abstract

The invention relates to the field of glass fiber reinforced plastics, in particular to a non-combustible matrix resin and a prepared non-combustible glass fiber reinforced plastic. The non-combustible matrix resin is prepared from the following raw materials by weight: 100 weight parts of phenolic resin, 5-20 weight parts of furfuryl alcohol, 5-15 parts of a diluent, 10-15 parts of a curing agentand 2-8 parts of montmorillonite. The non-combustible glass fiber reinforced plastic (FRP) prepared from the non-combustible matrix resin has the characteristic of non-combustibility, and does not ignite when exposed to fire; fire disasters caused by combustible waste gas containing perfluorocarbon, combustible gas, purified gas and the like can be prevented, and the non-combustible glass fiber reinforced plastic is very suitable for semiconductor process exhaust and smoke exhaust pipelines. Meanwhile, the non-combustible glass fiber reinforced plastic prepared from the non-combustible matrixresin has excellent mechanical strength, good heat resistance and durability, and meets the FM standard.

Description

Technical field[0001]The present invention relates to the field of fiberglass reinforced plastics, in particular to a non-combustible glass fiber reinforced plastics.Background technique[0002]In general, glass fiber reinforced plastics refer to FRP, and is a plastic with enhanced material such as fibers, with mechanical strength, heat resistance, tensile strength, and impact resistance.[0003]These FRPs have strong acid resistance, alkali, salt, solvent, seawater, etc., has excellent heat resistance and mechanical strength, and is a semi-permanent material.[0004]Although the above FRP has been widely used throughout the industry, research on its refractory performance is relatively insufficient. Especially in the electronics industry, especially in the semiconductor industry, the exhaust gas discharged from the film or etching process. Including perfluoro compound (PFC), nitrogen, argon, oxygen, hydrogen, ammonia, methane, organic exhaust gas, etc. Since it is harmful to the human bo...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08L61/06C08K5/1535C08K3/34C08J5/04C08J7/05C08J7/04
CPCC08J5/043C08J7/04C08J2361/06C08K3/346C08K5/1535C08J7/05
Inventor 李双周阳夏小忠邱会东江蕾
Owner SUZHOU AITESI ENIRONMENTAL PROTECTION EQUIP