Method for preparing quartz composite material by electrophoretic deposition of silica sol

A silicon dioxide and electrophoretic deposition technology, which is applied in the field of preparing quartz composite materials, can solve the problems of restricting wide application, low impregnation efficiency, and long preparation cycle, and achieve the effects of improving compactness and uniformity, low cost, and short cycle

Inactive Publication Date: 2017-05-31
曹原
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] Since the solid content of silica sol is generally about 25%, and the impregnation efficiency is relatively low, the traditional method of repeated impregnation and gel sintering often requires dozens or even dozens of impregnations. The number of times of drying and sintering makes the preparation cycle of the material long and the cost is high, which greatly limits its wide application
[0005] Electrophoretic deposition methods, such as Huang Jianfeng's "Method for preparing mullite outer coating of carbon / carbon composite materials by pulse hydrothermal electrophoretic deposition method" (CN101885623A), Wang Hong's "Preparation method of nano-polymer composite materials based on electrophoretic deposition" (CN102181912A) , Gao Junguo "A method for preparing ceramic composite coatings by electrophoresis-electrolysis composite electrodeposition" (CN102776549A), Huang Jianfeng "A method for preparing yttrium silicate coatings by cathode rotating hydrothermoelectrophoretic deposition" (CN101514473), Mei Hui " A preparation method of electrophoretic deposition of CNTs reinforced ceramic matrix composites" (CN104150939A), Guo Lingjun "Preparation method of electrophoretic deposition of nanowire toughened SiC anti-oxidation coating" (CN104591798A), Li Hejun "Preparation of a dielectrophoresis technology Method for carbon nanotube / carbon / carbon composite material" (CN103451708A), Cao Liyun "Method for preparing carbon / carbon composite material C-AlPO4 outer coating by microwave hydrothermoelectrophoresis arc discharge deposition" (CN102674885A), Dai Changsong "A method for improving calcium Phosphorus-Chitosan Electrophoretic Deposition Uniformity in Metal Foam" (CN102560604A), Yao Xuming "Acidification-Assisted Electrophoretic Deposition Initiated Graphene Oxide Deposition Modified Carbon Fiber Method" (CN105696312A), etc., but there is no relevant electrophoresis Preparation of Quartz Fiber Reinforced Quartz Ceramic Composites by Deposition Method

Method used

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Examples

Experimental program
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Effect test

Embodiment 1

[0027] A method for electrophoretic deposition of silica sol to prepare a flat plate of quartz fiber reinforced quartz ceramic composite material, comprising the following steps:

[0028] (1) The quartz glass fiber with a purity of 99.95wt% is prepared into a fabric with a size of 200*200*10mm by three-dimensional orthogonal weaving; the fiber surface sizing is removed by burning;

[0029] (2) In a square insulating container with a size of 300*300*80mm, put graphite positive electrodes, quartz fiber fabrics, and graphite negative electrodes of the same size as the fabric in the vertical direction, and connect them to a DC power supply;

[0030] (3) Vacuum inject silica sol with a mass concentration of 25% into the container;

[0031] (4) Turn on the DC power supply, adjust the voltage to 5 volts, and perform electrophoretic deposition of silica on the fabric. When the sol on the upper layer of the container is found to be clear, take out the clarified part, and then add an eq...

Embodiment 2

[0035] A method for electrophoretic deposition of silica sol to prepare a hemispherical quartz fiber reinforced quartz ceramic composite member, comprising the following steps:

[0036] (1) Quartz glass fiber with a purity of 99.95wt% is prepared into a hemispherical fabric with a diameter of 200mm and a thickness of 15mm by three-dimensional and four-way weaving; the fiber surface sizing agent is removed by burning;

[0037] (2) In a drum insulated container with a diameter of 300mm and a depth of 400mm, put graphite anodes, quartz fiber fabrics, and flat graphite anodes that are well-coordinated with the fabric in sequence in the vertical direction, and connect them to a DC power supply;

[0038] (3) Vacuum inject silica sol with a mass concentration of 27% into the container;

[0039] (4) Turn on the DC power supply, adjust the voltage to 4 volts, and perform electrophoretic deposition of silica on the fabric. When the sol on the upper layer of the container is found to be ...

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Abstract

The invention discloses a method for preparing a quartz composite material by the electrophoretic deposition of silica sol. The method comprises the following steps: (1) weaving quartz fibers to form an integral fabric of an appointed shape, and removing and drying impregnating compound on the surface of fabric fibers; (2) in an insulated container, putting quartz fiber fabrics between an anode and a cathode, and connecting with a direct-current power supply; (3) injecting the silica sol into the insulated container to enable the sol to completely submerge electrodes and fabrics; (4) turning on the direct-current power supply, regulating voltage, carrying out the deposition of silica sol on the fabrics, extracting clear liquid according to the size of a construction member, and filling the sol; (5) taking out the fabrics subjected to electrophoretic deposition, drying, sintering, and forming a quartz fiber enhanced quartz ceramic composite material. The method has the advantages of simple and reliable operation, short period and low cost, and the compactness and the evenness of the material can be improved.

Description

technical field [0001] The invention relates to a method for preparing a quartz composite material, in particular to a method for preparing a quartz composite material by electrophoretic deposition of silica sol. Background technique [0002] Quartz fiber-reinforced quartz composite materials have the characteristics of high temperature resistance, high strength, high toughness, low dielectric, low loss, and low thermal conductivity. They can be used for wave-transparent window materials such as spacecraft, or high-temperature wave-transparent window materials for industrial equipment. It can withstand high temperatures above 1000°C and has the characteristics of transmitting electromagnetic waves. [0003] The preparation method of this material is generally the impregnation sol-gelation-sintering method, that is, the silica sol is vacuum-impregnated into the quartz fiber fabric, and after the gel is dried, the impregnation gelation and sintering are repeated, and finally a...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B35/14C04B35/82C04B35/622
CPCC04B35/14C04B35/622C04B35/82C04B2235/77C04B2235/96
Inventor 曹原张中华
Owner 曹原
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