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Aerogel heat insulation composite material containing nano semiconductor infrared light screening agent and preparation thereof

An infrared sunscreen agent and nano-semiconductor technology, which is applied in the field of SiO2 aerogel thermal insulation composite material containing nano-semiconductor infrared sunscreen agent and its preparation field, can solve the problems of reduced thermal insulation effect, limited improvement of mechanical strength, poor hydrophobicity, etc. Effects of infrared radiation heat transfer, reduction of solid thermal conductivity, and excellent thermal insulation performance

Inactive Publication Date: 2009-05-27
CHANGSHA XINGNA AEROGEL
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

When the binder is added, although the strength of the composite material can be improved to a certain extent, the high-efficiency thermal insulation properties of the airgel material are also lost at the same time; Adding agent (titanium dioxide) to form a gel and then drying the material by supercritical fluid (see Chinese patent 97106652.3 "Modified nano-insulation material and its production process"), the infrared opacifier is difficult to disperse evenly, and the mechanical strength is limited. Difficult to meet the use requirements of harsh environments; ③Using fiber as a reinforcing phase, adopting sol-gel process and supercritical fluid drying process to form airgel composite materials (see US Patent US6068882 and Chinese Patent 200510031952.0 "An Airgel Thermal Insulation Composite material and its preparation method"), the material has good thermal insulation effect and performance, but the US patent US6068882 reduces the infrared transmittance by depositing molecular carbon or metal on the surface of the fiber, and the process is more complicated, while China Patent 200510031952.0 is to prepare SiO by in-situ composite method 2 / TiO 2 Introduction of TiO after composite gel 2 The use of airgel to reduce the infrared transmittance, although the process is simpler than the former, but due to the formation of TiO 2 It is mostly amorphous, and its effect on reducing infrared transmission is limited
In addition, the material made of US Patent US6068882 has poor hydrophobicity, and the heat insulation effect will be reduced due to water absorption during actual use

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0037] Ethyl orthosilicate, dimethyldiethoxysilane, absolute ethanol, deionized water, and ammonia water are formulated into silica sol in a one-step method in a molar ratio of 1:0.5:10:3:0.015, and 25% ATO Ethanol slurry is mixed with silica sol (the weight ratio of orthosilicate to ATO is 1:0.02) to obtain composite silica sol; the weight ratio of orthosilicate to fiber mat or fiber preform is 0.3~3 (the following examples All the same as the present embodiment), adopting the vacuum infiltration technique to flow into the bulk density is 70gk / m 3 In the superfine quartz fiber felt, aged at room temperature for 1 day, put into an autoclave, pre-filled with N 2 To 3.5MPa., heat up to 250°C at a heating rate of 60°C / h, keep the temperature constant for 1 hour, release the pressure slowly at a speed of 3MPa / h, and use N 2 Rinse the autoclave for 30 minutes, turn off the power, let it cool naturally, and you can prepare nanoporous SiO 2 Flexible thermal insulation composite mat...

Embodiment 2

[0039] Ethyl orthosilicate, dimethyldiethoxysilane, absolute ethanol, deionized water, and ammonia water are formulated into silica sol in one-step method with a molar ratio of 1:0.5:10:3:0.015, and 25% ATO is added Ethanol slurry (the weight ratio of ATO to tetraethyl orthosilicate is 0.05:1), after 30 minutes of ultrasonic mixing, the vacuum infiltration process described in Example 1 is used for infiltration. The volume density is 70gk / m 3 In the superfine glass fiber mat, after it is gelled, it is aged in ethanol solution for 3 days, put into an autoclave, and adopt the method described in Example 1 to carry out supercritical drying to obtain nanoporous SiO 2 Flexible thermal insulation composite material with a density of about 0.14g / cm 3 , the mechanical strength is about 0.10MPa, and the thermal conductivity is 0.016W / m.K under normal temperature and pressure.

Embodiment 3

[0041] Silica sol is prepared by making tetraethyl orthosilicate, dimethyldiethoxysilane, absolute ethanol, deionized water, hydrochloric acid, and ammonia water at a molar ratio of 1:0.5:10:3:0.002:0.004 , add 25% ATO ethanol slurry (the weight ratio of ATO to tetraethyl orthosilicate is 0.01:1), after 30 minutes of ultrasonic mixing, adopt the vacuum infiltration process described in Example 1 to carry out infiltration with a volume density of 70gk / m 3 In the ultra-fine basalt fiber mat, after it is gelled, it is aged in ethanol solution for 3 days, put into an autoclave, and adopt the method described in Example 1 to carry out supercritical drying to obtain nanoporous SiO 2 Airgel rigid thermal insulation composite material with a density of about 0.18g / cm 3 , The mechanical strength is about 1.9MPa, and the thermal conductivity at normal temperature and pressure is 0.017W / m·K.

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Abstract

The invention discloses an aerogel thermal insulation composite material containing an infrared opacifier of nanometer semiconductor antimony tin oxide (ATO) or aluminum zinc oxide (AZO) and a method for preparing the same. The aerogel thermal insulation composite material comprises the components of SiO2 aerogel, the infrared opacifier which is nanometer ATO or nanometer AZO particles, and reinforcing fiber. Silicasol and ATO or AZO nanometer alcohol slurry can be mixed together through mechanical agitation or ultrasonic action, and the mixture flows to a fiber felt or fiber prefabricated part through a seepage process to form a wet gel complex to further perform supercritical fluid drying. The aerogel thermal insulation composite material has good thermal conductivity and good barrier effect on solid heat conduction, air heat convection and infrared radiation heat transfer, and has good hydrophobicity, simple process and low cost simultaneously; the mechanical strength of the material can reach 0.10 to 2 MPa; besides, the aerogel thermal insulation composite material has wide application range and can meet the applications in occasions with higher thermal protection requirements for aviation, aerospace, military and civil use.

Description

technical field [0001] The invention belongs to the field of high-efficiency thermal insulation materials, and in particular relates to a SiO containing nano-semiconductor infrared shading agent 2 Airgel thermal insulation composite material and preparation method thereof. Background technique [0002] SiO 2 Airgel has the characteristics of high specific surface area, ultra-low density and nanoporous network structure, the porosity is as high as 98.9%, the pore size is generally in the mesopore range, and the specific surface area is as high as 1000m 2 / g, the density is 3~600kg / m 3 adjustable within the range. The structural specificity of airgel makes its refractive index, acoustic impedance and thermal conductivity low, and its adsorption performance is excellent. application prospects. [0003] SiO 2 Airgel is considered to be the solid material with the best thermal insulation performance at present, but the inherent low strength of airgel materials, high brittle...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B30/02
Inventor 卢斌卢峰卢勇
Owner CHANGSHA XINGNA AEROGEL
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