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Kapton/Al2O3 surface nanometer composite membrane and application

A nano-composite and thin-film technology, which is applied in the metal material coating process, superimposed layer plating, coating, etc., can solve the problems of easy cracking of surface inorganic films, damage of polymer materials, poor bonding performance, etc., and achieve surface The effect of flattening, consistent size and low cost

Inactive Publication Date: 2013-08-07
TIANJIN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The in-situ method prepares inorganic particle-doped polyimide films, and "impurities" such as surfactants or strongly acidic anions stay in the matrix, which will promote the degradation of polymer materials; in addition, compared with surface modification, overall modification is more important for Kapton films. The mechanical properties of the surface layer are greatly affected, and the flexibility and tensile properties of general materials drop sharply, while the surface inorganic composite retains the superior properties of the matrix material in the middle, so it can be seen that the surface layer composite material has more development prospects; magnetron sputtering, sol-gel Adhesive method is used to plate dense inorganic film on the surface of Kapton film, but the bonding performance of the organic / inorganic hardness jumping interface is poor and the surface inorganic film is prone to defects such as cracking; the preparation environment of magnetron sputtering and ion implantation methods requires high vacuum properties or high temperatures, which can damage polymer materials
In addition, the cost of the above method is high, special equipment and some chemical reagents with special groups are required, and it is not practical for the preparation of large-area materials.

Method used

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  • Kapton/Al2O3 surface nanometer composite membrane and application
  • Kapton/Al2O3 surface nanometer composite membrane and application
  • Kapton/Al2O3 surface nanometer composite membrane and application

Examples

Experimental program
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Effect test

Embodiment 1

[0018] The Kapton film was ultrasonically cleaned with acetone and absolute ethanol for 10 minutes successively to remove residual organic pollutants on the surface of the material. After cleaning, it was naturally dried in the air; the cleaned Kapton film was immersed in a concentration of 5mol / L at room temperature In the KOH aqueous solution, take it out after 5 minutes, and wash it thoroughly with a large amount of deionized water to remove the residual lye on the surface until it is neutral. The above-mentioned hydrolyzed Kapton film was immersed in 0.5mol / L AlCl at room temperature 3 Take it out after 120min in the aqueous solution, fully wash it with a large amount of deionized water, remove the residual metal salt solution on the surface, and dry it naturally in the air; 3+ The Kapton thin film is subjected to oxygen-containing heat treatment in a high-temperature controllable tubular furnace, and is heated from room temperature to 300 °C at a heating rate of 4 °C / min,...

Embodiment 2

[0021] The Kapton film was ultrasonically cleaned with acetone and absolute ethanol for 10 minutes successively to remove residual organic pollutants on the surface of the material. After cleaning, it was naturally dried in the air; the cleaned Kapton film was immersed in a concentration of 5mol / L at room temperature In the KOH aqueous solution, take it out after 10min, wash it thoroughly with a large amount of deionized water, remove the residual lye on the surface until it is neutral; soak the hydrolyzed Kapton film in 0.5mol / L AlCl at room temperature 3 Take it out after 120min in the aqueous solution, wash it fully with a large amount of deionized water, remove the residual metal salt solution on the surface, and dry it naturally in the air; 3+ The Kapton film is subjected to oxygen-containing heat treatment in a high-temperature controllable tube furnace, and is heated from room temperature to 340 °C at a heating rate of 4 °C / min, kept for 120 min, and then cooled to room ...

Embodiment 3

[0024] The Kapton film was ultrasonically cleaned with acetone and absolute ethanol for 10 minutes successively to remove residual organic pollutants on the surface of the material. After cleaning, it was naturally dried in the air; the cleaned Kapton film was immersed in a concentration of 4mol / L at room temperature. In the KOH aqueous solution, take it out after 5min, fully wash it with a large amount of deionized water, remove the residual lye on the surface until it is neutral; immerse the hydrolyzed Kapton film in 0.4mol / L AlCl at room temperature 3 Take it out after 60min in the aqueous solution, wash it fully with a large amount of deionized water, remove the residual metal salt solution on the surface, and dry it naturally in the air; 3+ The Kapton thin film is subjected to oxygen-containing heat treatment in a high-temperature controllable tubular furnace, and is heated from room temperature to 340 °C at a heating rate of 2 °C / min, kept for 180 min, and then cooled to ...

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Abstract

The invention discloses a Kapton / Al2O3 surface nanometer composite membrane, which is prepared by the following steps of: performing ultrasonic cleaning on a Kapton membrane by using acetone and absolute ethanol, steeping in 1 to 5 mol / L KOH aqueous solution at room temperature for 5 to 10 minutes, taking the membrane out, and fully cleaning by using a large amount of deionized water until the membrane is neutral; steeping the membrane in 0.1 to 0.5 mol / L AlCl3 aqueous solution at the room temperature for 60 to 120 minutes, taking the membrane out, cleaning by using a large amount of deionized water, and drying naturally; and performing oxygen-containing heat treatment in a high-temperature controllable tubular furnace, heating to the temperature of between 260 and 400 DEG C from room temperature at a heating speed of between 2 and 4 DEG C / minute, keeping the temperature for 60 to 180 minutes, and cooling with the furnace. The Kapton / Al2O3 surface nanometer composite membrane can be used as a surface part of a spacecraft, and also can promote the further development of the Kapton membrane and a Kapton-based composite membrane in fields of aerospace, electrons and the like.

Description

technical field [0001] The invention relates to a polymer-based composite film, in particular to a polymer-based composite film used on the surface of a spacecraft. Background technique [0002] The so-called polyimide (Polyimide, referred to as PI) is a kind of high temperature resistant polymer containing imide ring structure on the molecular main chain. In 1961, the polypyromellitic imide film material produced by DuPont of the United States was the first to realize commercialization in the world, and it was named Kapton. Compared with other polymer film materials, Kapton film material has the following advantages: (1) High thermal stability, it can be used for a long time above 300°C, can be used for a short time at 400-500°C, and is still stable in liquid nitrogen at ~269°C Will be brittle; (2) Excellent mechanical properties, the tensile strength of Kapton film is 170MPa, with excellent wear resistance and heat aging resistance; (3) High chemical stability, insoluble ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C23C28/00
Inventor 魏强王丹刘圣贤
Owner TIANJIN UNIV
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