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Method for preparing multifunctional nano protective coating by circulating large-duty-ratio pulse discharging

A pulse discharge and multi-functional technology, which is applied in the direction of coating, metal material coating process, and device for coating liquid on the surface, can solve the problems of slow coating deposition speed, low production efficiency, and high degree of powdering. Achieve the effect of solving uneven coating thickness, increasing effective coating, and improving deposition efficiency

Active Publication Date: 2017-09-19
JIANGSU FAVORED NANOTECHNOLOGY CO LTD
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0012] The British P2i company has developed a polymer nano-coating based on a specific small duty cycle pulse discharge method using chemical vapor deposition technology. The small duty cycle is less than 1:1000. The preparation process of the discharge method cannot achieve effective coordination and control of the bond length, bond energy, molecular weight of the material and energy provided by different groups in the chemical raw materials, and the scratch resistance and durability of the prepared coating are not ideal.
It is also due to the performance limitation of the coating that the current coating can only form a lyophobic nano-coating on electronic and electrical equipment, and the corrosion resistance caused by the environment cannot be effectively solved.
Moreover, the dense protective coating prepared based on a specific small duty cycle pulse discharge method has a fatal disadvantage: from a microscopic point of view, the small power density in the coating process is not conducive to the formation of a dense structure, and even cannot form a stable film. Structure; from a macro point of view, a small power density is not conducive to the high rate growth of the coating, and the efficiency is low in actual production, which limits its application
[0013] In the existing plasma chemical vapor deposition coating preparation process, the substrate is fixed, and the movement state of the substrate has no correlation with the discharge energy of the plasma; the static substrate in the chamber is treated by the continuous discharge method, The activated chain scission in the monomer is generally combined into a film through simple stacking under the action of continuous discharge, and the resulting coating generally has a loose structure, or even a high degree of powderization, which is not conducive to the formation of a microscopic dense structure of the coating. Therefore, the coating’s Waterproof, moisture-proof, corrosion-resistant, solvent-resistant and other protective properties are poor
[0014] Due to the regional differences in plasma density and chemical raw material density in the reaction chamber, the static substrate will also lead to slow coating deposition in some areas, low production efficiency, and large differences in uniformity and compactness.

Method used

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  • Method for preparing multifunctional nano protective coating by circulating large-duty-ratio pulse discharging
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  • Method for preparing multifunctional nano protective coating by circulating large-duty-ratio pulse discharging

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Effect test

Embodiment 1

[0068] A method for preparing multifunctional nano protective coating by cyclic large duty cycle pulse discharge, comprising the following steps:

[0069] (1) The base material is placed in the reaction chamber of the nano-coating preparation equipment, the reaction chamber is closed and the reaction chamber is continuously evacuated, the vacuum degree in the reaction chamber is evacuated to 10 millitorr, and the inert gas Ar is passed into, Turn on the motion mechanism to make the substrate move in the reaction chamber;

[0070] In step (1), the base material is a solid material, and the solid material is a block aluminum material, and after the surface of the base material is prepared with an acid-resistant and alkaline environment coating, any interface thereof can be exposed to acid and alkali test environments .

[0071] The volume of reaction chamber is 50L in the step (1), and the temperature of reaction chamber is controlled at 30 ℃, and the flow that feeds inert gas ...

Embodiment 2

[0093] A method for preparing multifunctional nano protective coating by cyclic large duty cycle pulse discharge, comprising the following steps:

[0094] (1) Place the substrate in the reaction chamber of the nano-coating preparation equipment, close the reaction chamber and continuously evacuate the reaction chamber, pump the vacuum in the reaction chamber to 60 millitorr, feed inert gas He, and start Motion mechanism to make the base material move;

[0095] In step (1), the base material is a solid material, and the solid material is a block aluminum material, and any interface of the base material can be exposed to the organic solvent test environment after preparing an organic solvent immersion and cosmetics resistant coating on the surface of the base material.

[0096] The volume of reaction chamber is 250L in the step (1), and the temperature of reaction chamber is controlled at 40 ℃, and the flow that feeds inert gas is 15 sccm.

[0097] In step (1), the base materia...

Embodiment 3

[0118] A method for preparing multifunctional nano protective coating by cyclic large duty cycle pulse discharge, comprising the following steps:

[0119] (1) Place the substrate in the reaction chamber of the nano-coating preparation equipment, close the reaction chamber and continuously evacuate the reaction chamber, pump the vacuum in the reaction chamber to 130 millitorr, feed inert gas Ar, and start Motion mechanism to make the base material move;

[0120] In step (1), the base material is a solid material, and the solid material is a block aluminum material, and any interface of the base material surface can be exposed to the cold and heat cycle test environment after the cold and heat cycle impact coating is prepared on the surface of the base material middle.

[0121] The volume of reaction chamber is 480L in the step (1), and the temperature of reaction chamber is controlled at 50 ℃, and the flow that feeds inert gas is 50sccm,.

[0122] In step (1), the base materi...

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Abstract

The invention provides a method for preparing a multifunctional nano protective coating by circulating large-duty-ratio pulse discharging and belongs to the technical field of plasma. The method is characterized in that a reaction chamber is vacuumized, inert gas is filled into the reaction chamber, a substrate can move, monomer steam is filled into the reaction chamber, and chemical vapor deposition is carried out; a deposition process comprises a pretreatment stage and a film coating stage; the plasma discharging manner in the pretreatment stage is a high-power continuous discharging manner; the plasma discharging manner in the film coating stage is a large-duty-ratio pulse discharging manner; the pretreatment stage and the film coating stage are circulated and repeated for at least one time; through circulation introduction in the film coating process, more active sites are introduced into the surface of the substrate; the effective coating of the film can be increased; the film structure is more dense; a nano coating with a multilayer composite structure is obtained; multi-level protection is provided for the product; the product shows more dense coating structure at a micro level and shows excellent hydrophobicity, adhesion, acid resistance, alkali resistance, mechanical property, moisture resistance and heat resistance at a macro level.

Description

technical field [0001] The invention belongs to the technical field of plasma chemical vapor deposition, and in particular relates to a method for preparing a multifunctional nano protective coating. Background technique [0002] Corrosive environments are the most common cause of damage to electronic devices. Corrosion of solid materials in electronic devices, reduction of conductor / semiconductor insulation, and failure phenomena such as short circuit, open circuit or poor contact due to environmental corrosion. At present, in the products of high-tech industries such as national defense and aerospace, the proportion of electronic components is increasing, and the requirements for moisture-proof, mildew-proof and corrosion resistance of electronic products are becoming more and more stringent. In the field of communication, with the continuous advancement of technology, the continuous increase of communication frequency, the heat dissipation of communication equipment, and...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C23C16/517C23C16/455
CPCC23C16/455C23C16/517C23C16/515C23C16/511B05D1/62B05D5/083C23C16/448
Inventor 宗坚
Owner JIANGSU FAVORED NANOTECHNOLOGY CO LTD
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