Processing technology of glass fiber

A glass fiber and processing technology, applied in the field of glass fiber processing technology, can solve problems such as poor wear resistance, and achieve the effects of good corrosion resistance, simple and easy process, and excellent high temperature resistance.

Inactive Publication Date: 2019-11-05
佛山市嘉懿行农业科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

According to the glass composition, the roving can be divided into: E-GLASS non-alkali glass roving and C-GLASS medium-alkali glass roving. Glass fiber is an inorganic non-metallic material with excellent perfor

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0028] A glass fiber processing technology, the specific steps are as follows:

[0029] (1) Add 20 parts of raw glass, 10 parts of clarifying agent, 1 part of halide, 3 parts of Glauber's salt, 2 parts of quartz sand, and 5 parts of firefly powder into the furnace;

[0030] (2) Heating the furnace to make the glass temperature rise, preheat first, set the preheat temperature to 800℃, the preheat time is 1h, and then melt, the melting temperature is within the range of 1200℃, the drying time is 5h;

[0031] (3) Use the wire drawing machine to draw the molten glass, and the speed of the wire drawing machine is set to 5m / min;

[0032] (4) Cool the drawn glass fiber into water, the temperature of the cooling water is 5℃;

[0033] (5) Put the cooled glass fiber into the acid solution, stir the acid solution with an acid-resistant pump and assist with bubbling stirring to enhance ion exchange, and at the same time use steam heating to control the reaction temperature between 80°C , After soa...

Embodiment 2

[0038] A glass fiber processing technology, the specific steps are as follows:

[0039] (1) Add 25 parts of raw glass, 12 parts of clarifying agent, 1.5 parts of halide, 3.5 parts of Glauber's salt, 2.5 parts of quartz sand, and 6 parts of firefly powder into the furnace;

[0040] (2) Heating the furnace to make the glass temperature rise, first preheat, set the preheat temperature to 900℃, the preheat time is 1.2h, and then melt, the melting temperature is within the range of 1250℃, the drying time is 5.5h ;

[0041] (3) Use the wire drawing machine to draw the molten glass, the speed of the wire drawing machine is set to 5.5m / min;

[0042] (4) Cool the drawn glass fiber into water, the temperature of the cooling water is 6℃;

[0043] (5) Put the cooled glass fiber into the acid solution, stir the acid solution with an acid-proof pump and assist with bubbling stirring to strengthen ion exchange, and at the same time use steam heating to control the reaction temperature between 82°C ,...

Embodiment 3

[0048] A glass fiber processing technology, the specific steps are as follows:

[0049] (1) Add 30 parts of raw glass, 15 parts of clarifying agent, 2 parts of halide, 4 parts of Glauber's salt, 3 parts of quartz sand, and 8 parts of firefly powder into the furnace;

[0050] (2) Heating the furnace to make the glass temperature rise, preheat first, set the preheat temperature to 1000℃, the preheat time is 1.5h, and then melt, the melting temperature is within the range of 1300℃, the drying time is 6h;

[0051] (3) Use the wire drawing machine to draw the molten glass, the speed of the wire drawing machine is set to 6m / min;

[0052] (4) Cooling the drawn glass fiber into water, the temperature of cooling water is 8℃;

[0053] (5) Put the cooled glass fiber into the acid solution, stir the acid solution with an acid-resistant pump and assist with bubbling stirring to strengthen ion exchange, and use steam heating to control the reaction temperature between 85°C , After 2 hours of soaking...

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PUM

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Abstract

The invention discloses a processing technology of glass fiber. Specifically, the steps are as follows: adding raw material glass, a clarifying agent, a halide, mirabilite, quartz sand and firefly powder into a melting furnace; heating the melting furnace to make a temperature of the glass rise, first performing preheating, then performing melting, performing wire-drawing on a molten glass liquidby using a wire drawing machine, performing cooling forming on the drawn glass fiber by water, putting the cooled glass fiber into an acid solution, and stirring the acid solution by using an acid resistant pump under assistance of bubbling stirring to enhance ion exchange. The technology is simple and practicable, the produced glass fiber has good insulation, good corrosion resistance, high mechanical strength, and excellent high-temperature resistance, can be used at 1100 DEG C or less for a long time, has good ablation performance, and better high-temperature resistance, chemical corrosionresistance and elastic modulus, and is widely used in manufacturing of precision instrument thermal protection parts, ablation materials, thermal insulation materials and other fields.

Description

Technical field [0001] The invention relates to a glass fiber manufacturing process, in particular to a glass fiber processing technology. Background technique [0002] Glass fiber checkered cloth is a non-twisted roving plain weave fabric, which is an important substrate for hand-laid glass fiber reinforced plastic. The strength of gingham cloth is mainly in the warp and weft direction of the fabric. For occasions that require high warp or weft strength, it can also be woven into unidirectional cloth. It can arrange more twistless rovings in the warp or weft direction. Warp cloth, single weft cloth. Roving is made up of parallel strands or parallel monofilaments. According to the glass composition, the twistless roving can be divided into: E-GLASS alkali-free glass non-twisted roving and C-GLASS medium alkali glass non-twisted roving. Glass fiber is an inorganic non-metallic material with excellent performance. There are many types and the advantage is insulation. Good, stron...

Claims

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Application Information

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IPC IPC(8): C03C13/00C03C6/06C03C6/04C03B37/022C03C25/66C03C25/143
CPCC03B37/022C03B2205/50C03C1/00C03C1/004C03C13/00C03C25/143C03C25/66
Inventor 颜勇
Owner 佛山市嘉懿行农业科技有限公司
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