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A preparation method of heat insulation material for crash survivor memory

A heat insulation material and memory technology, applied in the field of heat insulation materials, can solve the problems of poor heat insulation performance of heat insulation materials at high temperature, failure of high temperature thermal protection, etc., and achieve good high temperature resistance, improved heat insulation performance, and high temperature heat insulation effect Good results

Active Publication Date: 2021-07-23
LANZHOU INST OF CHEM PHYSICS CHINESE ACAD OF SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Aiming at the technical defects of poor high-temperature heat insulation performance and high-temperature thermal protection failure of heat insulation materials in the prior art, the present invention provides a heat insulation material for crash-survival memory with excellent high-temperature heat insulation performance and a preparation method thereof

Method used

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  • A preparation method of heat insulation material for crash survivor memory
  • A preparation method of heat insulation material for crash survivor memory
  • A preparation method of heat insulation material for crash survivor memory

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0028] Preparation of porous fiber skeleton: immerse 38g of aluminum silicate fiber in aqueous hydrochloric acid solution with pH = 3, stir to dissolve the slag balls contained in the fiber, then rinse repeatedly with deionized water until neutral, mix with 3.8g of soluble starch, BN powder Add 7.6g into 1000ml of water together, and disperse evenly to obtain fiber slurry; copy the fiber slurry into a shaping mold, pressurize 0.8KPa, and release the mold after holding the pressure for 2 hours to obtain a fiber skeleton with a regular shape; then put it Put it into a muffle furnace, sinter at 1000°C for 60 minutes, and take out the porous fiber skeleton after cooling;

[0029] Preparation of composite sol: Mix aluminum sec-butoxide, ethanol, and water at a molar ratio of 1:12:0.8 at 60°C, and then cool to room temperature to obtain alumina sol. Then, tetraethyl orthosilicate was added, hydrochloric acid was stirred for 60 minutes, 3.8 g of potassium hexatitanate, acetone and an...

Embodiment 2

[0037] Preparation of porous fiber skeleton: immerse 26g of polycrystalline mullite fiber in an aqueous nitric acid solution with pH=2, stir to dissolve the slag balls contained in the fiber, then rinse repeatedly with deionized water until neutral, and mix with 2.6g of polyacrylamide, Dispersant sodium dodecylbenzene sulfonate 1g, BN powder 2.6g were added to 800ml water together, the fiber slurry was obtained after dispersing evenly; the fiber slurry was copied into the shaping mold, pressurized at 0.5KPa, held for 2 hours and then removed. mold to obtain a fiber skeleton with a regular shape, then put it into a muffle furnace, sinter at 1100°C for 30min, and take out the porous fiber skeleton after cooling;

[0038] Preparation of composite sol: replace ethyl orthosilicate in Example 1 with trimethylmethoxysilane, add according to the ratio of aluminum-silicon molar ratio of 5, and prepare according to the method for synthesizing aluminum-silicon composite sol in Example 1 ...

Embodiment 3

[0043] Preparation of porous fiber skeleton: immerse 23g of polycrystalline alumina fibers in nitric acid aqueous solution with pH=4, stir to dissolve the slag balls contained in the fibers, then rinse repeatedly with deionized water until neutral, and disperse with 4.2g of epoxy resin Sodium dodecylbenzene sulfonate 1g, BC powder 3g, add to 650ml water together, after dispersing evenly, get the fiber slurry; copy the fiber slurry into the shaping mold, pressurize 0.7KPa, keep the pressure for 2h and then release the mold , to obtain a fiber skeleton with a regular shape, then put it into a muffle furnace, sinter at 1200 ° C for 30 minutes, and take out the porous fiber skeleton after cooling;

[0044] Preparation of composite sol: replace the aluminum sec-butoxide in Example 1 with aluminum nitrate, replace ethyl orthosilicate with trimethylethoxysilane, change the ratio of aluminum-silicon molar ratio to 8, and the rest follow the example 1. The method for synthesizing the a...

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Abstract

The invention discloses a method for preparing a heat insulation material for a crash-surviving storage device. Firstly, porous fibers, a normal-temperature binder and a high-temperature binder are added into water to make a slurry; Porous fiber skeleton; add infrared shielding agent and gel auxiliary agent to the prepared aluminum-silicon composite sol, disperse evenly, compound with porous fiber skeleton and let it stand until gel is formed; then aging the fiber composite wet gel for supercritical After drying, a heat insulating material for a crash-survival memory is obtained. The heat insulation material prepared by the invention not only has good high-temperature heat insulation performance, but also has good strength and vibration reduction performance, and is especially suitable for the heat insulation protection of the crash-surviving memory, which breaks the long-term dependence on imports of the current domestic aircraft crash-surviving memory The situation of products and the import substitution of insulation materials for crash surviving storage are of great significance.

Description

technical field [0001] The invention relates to a heat insulating material for a crash-surviving storage device and a preparation method thereof, belonging to the field of heat insulating materials. Background technique [0002] The crash survival memory is the data storage and preservation part on the flight parameter recorder and voice recorder, commonly known as "black box". Analysis of accident causes. Crash surviving memory is generally composed of recording medium, protective shell and heat insulation material. A heat insulating material is generally filled between the protective case and the recording medium to prevent stored data from being damaged in an accident. The thermal insulation material filled must be able to meet the thermal insulation requirements specified in the TSO-124a standard for accident survivability, that is, to withstand a high temperature of 1100 ° C for 60 minutes, and 260 ° C for 10 hours of heating, the internal temperature is less than 125...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B30/02C04B111/28
CPCC04B30/02C04B2111/28C04B2201/20C04B2201/32C04B2201/50C04B14/303C04B14/38
Inventor 杨景锋王齐华王廷梅
Owner LANZHOU INST OF CHEM PHYSICS CHINESE ACAD OF SCI