Infrared high shield core-shell structure opacifying agent for SiO2 aerogel and preparation method of opacifying agent

A core-shell structure, aerogel technology, applied in the field of high-temperature thermal insulation materials, can solve the problems of uneven dispersion, cracking of aerogel blocks, low service temperature, etc., and achieves excellent high-temperature performance, high product activity, and cracking temperature. low effect

Inactive Publication Date: 2014-06-25
TIANJIN CHENGJIAN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Among them, carbon black is a kind of infrared sunscreen agent used earlier, but it is easy to oxidize when encountering high temperature, and the use temperature is low; Al 2 o 3 The fibers of inorganic ceramic fibers are generally longer, which are often used to prepare fiber composite materials, and the shading effect is poor; SiC micropowder, potassium hexatitanate whiskers, and titanium dioxide and SiO 2 Airgel doping can significantly reduce the pure SiO 2 Infrared transmittance of airgel
However, these powders themselves have a high density, and they are prone to precipitation during the gelation process, causing uneven dispersion in the airgel, reducing the high-temperature radiation heat transfer shielding effect, and the sediment will also increase solid-phase heat transfer. Cause the airgel block to crack during the drying process, seriously affecting its performance
[0004] In the past few decades, the core-shell structure has been widely studied due to its special structure and unique photoelectric, magnetic, and catalytic properties. However, most research on the core-shell structure mainly focuses on catalytic performance, adsorption performance, and electrode materials applications, little research has been done on thermal aspects

Method used

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  • Infrared high shield core-shell structure opacifying agent for SiO2 aerogel and preparation method of opacifying agent
  • Infrared high shield core-shell structure opacifying agent for SiO2 aerogel and preparation method of opacifying agent

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] 1) Melt 3g of solid paraffin in a three-neck oil-bath flask at 52°C in advance, add 0.3g of butyl titanate, 0.8g of polysilazane, and 0.2g of divinylbenzene in sequence, and stir with the melted paraffin under magnetic force Mix evenly under low pressure to obtain a uniform oil phase; disperse 0.5g sodium dodecylsulfonate in 40g deionized water under ultrasonic conditions to obtain a uniform water phase; emulsify the water phase and oil phase under magnetic high-speed stirring conditions to prepare Uniform emulsion system; install the condensing device and react the uniform emulsion in an 80°C oil bath for 8 hours;

[0028] 2) Centrifuge and wash the product of step 1 with an organic solvent for 3 minutes, and put it in an oven at 50°C to dry;

[0029] 3) Put the product of step 2 into a nitrogen protective atmosphere furnace and sinter at 1200°C for 1 hour;

[0030] 4) Mix the 3g powder obtained in step 3 with 10g powdered SiO 2 The airgel is mixed evenly, and dry-pr...

Embodiment 2

[0033] 1) Melt 3g of solid paraffin in a three-necked oil-bath flask at 52°C in advance, add 0.2g of butyl titanate, 0.7g of polysilazane, and 0.15g of divinylbenzene in sequence, and stir with the melted paraffin under magnetic force Mix evenly under low pressure to obtain a uniform oil phase; disperse 0.4g sodium dodecylsulfonate in 40g deionized water under ultrasonic conditions to obtain a uniform water phase; emulsify the water phase and oil phase under magnetic high-speed stirring conditions to prepare Uniform emulsion system; install the condensing device, and react the uniform emulsion in a 70°C oil bath for 8 hours;

[0034]2) Centrifuge and wash the product of step 1 with an organic solvent for 3 minutes, and put it in an oven at 50°C to dry;

[0035] 3) Put the product of step 2 into a nitrogen protective atmosphere furnace and sinter at 1000°C for 1.5 hours;

[0036] 4) Mix the 2.5g powder obtained in step 3 with 10g powdered SiO 2 The airgel is mixed evenly, and...

Embodiment 3

[0039] 1) Melt 3g of solid paraffin in a three-necked oil-bath flask at 52°C in advance, add 0.25g of butyl titanate, 0.6g of polysilazane, and 0.2g of divinylbenzene in sequence, and stir with the melted paraffin under magnetic force Mix evenly under low pressure to obtain a uniform oil phase; disperse 0.4g sodium dodecylsulfonate in 40g deionized water under ultrasonic conditions to obtain a uniform water phase; emulsify the water phase and oil phase under magnetic high-speed stirring conditions to prepare Uniform emulsion system; install the condensing device, and react the uniform emulsion in a 65°C oil bath for 6 hours;

[0040] 2) Centrifuge and wash the product of step 1 with an organic solvent for 3 minutes, and put it in an oven at 50°C to dry;

[0041] 3) Put the product of step 2 into a nitrogen protective atmosphere furnace and sinter at 1350°C for 2 hours;

[0042] 4) Mix the 4g powder obtained in step 3 with 10g powdered SiO 2 The airgel is mixed evenly, and dr...

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Abstract

The invention relates to an infrared high shield core-shell structure opacifying agent for SiO2 aerogel and a preparation method of the opacifying agent, and belongs to the field of high temperature heat-insulating materials. The opacifying agent is a TiO2-coated SiC hollow core-shell structure ceramic microsphere, wherein the hollow size theta is 0.8-1.5 mu m, the thickness of a nuclear layer SiC is 0.1-0.2 mu m, and the thickness of a shell layer TiO2 is 0.1-0.3 mu m. The preparation method comprises the following steps: I, sequentially adding butyl titanate, polysilazane and divinyl benzene into fused paraffin, and magnetically stirring to obtain a uniform oil phase; dispersing an emulsifier in deionized water in an ultrasonic condition to obtain a uniform water phase; stirring the water phase and the oil phase at a high speed to uniformly emulsify; installing a condensating device, and carrying out a reaction on the emulsion in an oil bath pan; II, centrifugalizing, cleaning and drying the product obtained in the step I; III, sintering the dried product in an atmosphere furnace; and IV, uniformly mixing the sintered product with the SiO2 aerogel and pressing and forming. The core-shell structure ceramic beads are controllable in size, light in weight and high-temperature resistant, and the core-shell structure opacifying agent can effectively improve the anti-infrared shield performance of the SiO2 aerogel.

Description

technical field [0001] The invention relates to a size-controllable core-shell ceramic microsphere and a preparation method thereof, more specifically, to a method for SiO 2 The invention discloses an airgel infrared high-shielding core-shell structure sunscreen and a preparation method thereof, belonging to the field of high-temperature heat-insulating materials. Background technique [0002] SiO 2 Airgel is an amorphous lightweight material with a nanoporous structure, with a porosity as high as 99%, and has good thermal insulation properties. The thermal insulation materials prepared with it have the advantages of light weight, low thermal conductivity, and high strength. It can be used in important fields such as aerospace, construction, industry, transportation, etc. But pure SiO 2 Airgel is penetrable to infrared rays in the 2-8μm infrared band at high temperatures, and SiO 2 When the base insulation material is used for a long time above 800 °C, the internal nanop...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B30/00C04B35/565C04B35/46C04B35/622
Inventor 刘洪丽康伟李婧李洪彦李亚静
Owner TIANJIN CHENGJIAN UNIV
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