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Airgel type rare earth composite thermal insulation material and preparation method thereof

A technology of rare earth composite and thermal insulation materials, applied in the field of thermal insulation materials, can solve the problems of pollution in the production process, restrictions on popularization and application, and poor airgel strength, and achieve the effects of good waterproof performance, superior performance, and good thermal insulation effect

Active Publication Date: 2022-02-15
青岛启明环保节能技术有限公司 +2
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The current industrial thermal insulation is still dominated by inorganic fiber materials such as traditional rock wool, glass wool and aluminum silicate fiber. These materials are cheap, but most of them have poor thermal insulation performance, high water absorption, and poor thermal stability for long-term use. Problems such as ash sinking, seam cracking, etc., serious heat loss, fail to meet the specified requirements
In particular, special-shaped parts such as steam turbines, heat pumps, valves, elbows, tees (crosses) and spheres are more likely to be damaged and water ingress, resulting in failure of insulation, requiring regular maintenance and replacement
[0003] In recent years, new thermal insulation materials such as nanoporous airgel felt have appeared. These materials have excellent thermal insulation performance, but most of them are used in combination with fiber materials. The disadvantages of fiber materials still exist, and airgel also has poor strength and high price. , serious pollution in the production process and other weaknesses, so there are certain restrictions on its popularization and application

Method used

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  • Airgel type rare earth composite thermal insulation material and preparation method thereof

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0037] This embodiment provides an airgel type rare earth composite thermal insulation material, comprising the following components in parts by weight:

[0038]20 parts of aluminum silicate fiber cotton, 10 parts of sepiolite wool, 15 parts of brucite fiber, 10 parts of bentonite, 15 parts of vitrified microspheres, 12 parts of hollow ceramic microspheres, 6 parts of airgel powder, AEC surface active 3 parts of isomeric alcohol sulfonate, 2 parts of silane / polysiloxane emulsion water repellent, 2 parts of polyimide, 2 parts of rare earth inorganic high temperature binder and water, the amount of water is the above group 3 times the sum of the weights.

[0039] The rare earth insulation material is prepared according to the following steps:

[0040] (1) Take each raw material component in proportion;

[0041] (2) Material pretreatment, take 120 parts by weight of water to dilute AEC surfactant and isomeric alcohol sulfonate, add aluminum silicate fiber cotton and soak for 6-...

Embodiment 2

[0044] 15 parts of aluminum silicate fiber cotton, 15 parts of sepiolite wool, 15 parts of brucite fiber, 10 parts of bentonite, 15 parts of vitrified microbeads, 15 parts of hollow ceramic microbeads, 5 parts of airgel powder, AEC surface active 3 parts of agent, 2 parts of isomeric alcohol sulfonate, 1.5 parts of silane / polysiloxane emulsion water repellent, 1.5 parts of polyimide, 2 parts of rare earth inorganic high temperature binder and water, the amount of water is the above group 3 times the sum of the weights.

[0045] The rare earth insulation material is prepared according to the following steps:

[0046] (1) Take each raw material component in proportion;

[0047] (2) Material pretreatment, take 120 parts by weight of water to dilute AEC surfactant and isomeric alcohol sulfonate, add aluminum silicate fiber cotton and soak for 6-10 hours, and polyimide and silane / polysiloxane emulsion Add 30 parts of water and stir in a special mixer for 15 minutes before use;

...

Embodiment 3

[0050] 30 parts of aluminum silicate fiber cotton, 10 parts of sepiolite wool, 10 parts of brucite fiber, 13 parts of bentonite, 12 parts of vitrified microbeads, 10 parts of hollow ceramic microbeads, 4 parts of airgel powder, AEC surface active 2 parts of isomeric alcohol sulfonate, 2 parts of silane / polysiloxane emulsion water repellent, 2 parts of polyimide, 2 parts of rare earth inorganic high-temperature binder and water, the amount of water is the above group 3.5 times the sum of the weights.

[0051] The rare earth insulation material is prepared according to the following steps:

[0052] (1) Take each raw material component in proportion;

[0053] (2) Material pretreatment, take 160 parts by weight of water to dilute AEC surfactant and isomeric alcohol sulfonate, add aluminum silicate fiber cotton and soak for 6-10 hours, polyimide and silane / polysiloxane emulsion Add 30 parts of water and stir in a special mixer for 15 minutes before use;

[0054] (3) Add 160 part...

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Abstract

The invention discloses an airgel type rare earth composite thermal insulation material and a preparation method thereof. In the preparation process of the rare earth composite thermal insulation material, processes such as surface chemical modification, encapsulation modification and dynamic physical and chemical reactions are used, so that a large amount of heat is generated inside the product. The closed vacuum-like micropores increase the porosity, coupled with the blocking effect of hollow microbeads on radiation heat transfer and the efficient heat insulation function of airgel, the thermal insulation performance of the composite new material has been greatly improved; The combined effect of additives and adhesives, especially the good high-temperature bonding performance of rare earth inorganic high-temperature adhesives, organically condenses the gas phase and solid phase, granular materials and fiber materials together, presenting a layered network stacking force unit and filling The structure makes the insulation material have a very strong structural force and affinity, good structural strength, and long service life; moreover, the material has no asbestos, no dust during construction, and the remaining materials can be recycled. It is a green and environmentally friendly product.

Description

technical field [0001] The invention relates to the technical field of thermal insulation materials, in particular to an airgel type rare earth composite thermal insulation material and a preparation method thereof. Background technique [0002] Thermal insulation technology is the most economical and most effective measure for energy saving and consumption reduction. Research and development of new thermal insulation materials is an important topic for energy saving and consumption reduction. The current industrial thermal insulation is still dominated by inorganic fiber materials such as traditional rock wool, glass wool and aluminum silicate fiber. These materials are cheap, but most of them have poor thermal insulation performance, high water absorption, and poor thermal stability for long-term use. Ash sinking, seam cracking and other problems, serious heat loss, can not meet the specified requirements. In particular, special-shaped parts such as steam turbines, heat p...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B28/00C04B38/10C04B38/08
CPCC04B28/00C04B38/10C04B2201/32C04B2201/50C04B2111/285C04B22/002C04B14/4656C04B14/4643C04B14/38C04B14/104C04B18/027C04B18/025C04B14/064C04B2103/40C04B24/16C04B24/42C04B24/28C04B38/0067C04B38/08
Inventor 刘锡光张永明孙志钦刘斌夏金洋周天宇
Owner 青岛启明环保节能技术有限公司
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