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Preparation method of superlattice ceramic atomizing core

A superlattice and atomizing core technology, applied in the field of atomization, can solve the problems of easy oxidation and short service life of the atomizing core, and achieve the effects of prolonging the service life, promoting uniform distribution and improving thermal efficiency.

Pending Publication Date: 2021-10-22
深圳雾曼科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The technical problem to be solved by the present invention is to provide a superlattice ceramic atomizing core preparation method in view of the existing technical problems of easy oxidation and short service life of the atomizing core

Method used

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Examples

Experimental program
Comparison scheme
Effect test

preparation example Construction

[0025] In order to further understand the contents of the present invention, the present invention will be described in detail in conjunction with examples. A method for preparing a superlattice ceramic atomizing core of the present invention is characterized in that it comprises the following steps:

[0026] Step 1: Prepare a nano-superlattice electrothermal film treatment solution, and put the prepared electrothermal film treatment solution into the coating solution storage bin of the vacuum plasma sputtering coating machine;

[0027] Step 2: Pass the ceramic substrate to the feeding and retrieving manipulator through the feeding and feeding machine, send it into the high-temperature vacuum plasma coating machine, start the sputtering coating machine, and obtain an electrothermal film on the surface of the ceramic substrate;

[0028] Step 3: Plating silver on the electrode design area on both sides of the ceramic electrothermal film to form electrodes;

[0029] Step 4: Weld...

Embodiment 1

[0039] In the preparation process of the nano-superlattice electrothermal film treatment solution, 1000g of antimony chloride, 10000g of tin chloride, 1500g of stannous chloride, 1500g of tin oxide, 1200g of stannous oxide, 800g of boron oxide and 1500g of bismuth oxide were weighed respectively , organic solvent 5000g; Ultrasonic 2h after described ethanol, acetic acid, methyl acetate mixes and makes mixed solution fully disperse uniformly to obtain organic solvent, wherein ethanol and acetic acid volume ratio are 4: 3, and ethanol and methyl acetate volume ratio are 9: 3; then add stannous oxide, tin oxide, tin chloride and the configured organic solvent into distilled water, stir vigorously for 10 hours, filter and separate to obtain solid and filtrate; add antimony chloride and stannous chloride into the organic solvent, Add an appropriate amount of hydrochloric acid dropwise, and stir vigorously for 1 hour to obtain solution A; add boron oxide and bismuth oxide to methyl a...

Embodiment 2

[0041] This example is basically the same as Example 1, except that during the preparation of the nano-superlattice electrothermal film treatment solution, 1200g of antimony chloride, 30000g of tin chloride, 1600g of stannous chloride, and 1700g of tin oxide were weighed respectively. , stannous oxide 1600g, boron oxide 900g, bismuth oxide 1800g, organic solvent 7000g; Described ethanol, acetic acid, methyl acetate are mixed and ultrasonic 3h makes mixed solution fully disperse evenly and obtain organic solvent, wherein ethanol and acetic acid volume ratio are 5 : 2, the volume ratio of ethanol to methyl acetate is 5: 2; then stannous oxide, tin oxide, tin chloride and the configured organic solvent are added to distilled water, vigorously stirred for 12h, filtered and separated to obtain solid and filtrate; Antimony chloride and stannous chloride were added to the organic solvent, and an appropriate amount of hydrochloric acid was added dropwise, and vigorously stirred for 2 h...

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PUM

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Abstract

The invention discloses a preparation method of a superlattice ceramic atomization core, and belongs to the technical field of atomization. According to the preparation method of the superlattice ceramic atomizing core, a nanometer superlattice material is taken as the atomizing core raw material, the nanometer superlattice material is deposited on a ceramic substrate through the high-temperature vacuum plasma coating technology, and the service life of the atomizing core is effectively prolonged through the oxidation resistance of the nanometer superlattice material; and meanwhile, the high-temperature vacuum plasma coating technology promotes uniform deposition of the superlattice material on the ceramic substrate, and the heat efficiency of the atomizing core is remarkably improved.

Description

Technical field: [0001] The invention relates to the technical field of atomization, in particular to a method for preparing a superlattice ceramic atomization core. Background technique: [0002] Atomization technology is widely used in the medical atomization industry, electronic atomization industry, breeding atomization industry, etc., but the atomization core, the core atomization component widely used in the market, is extremely vulnerable to high temperature (above 100 degrees) environment. Oxidative deterioration, short service life, frequent replacement, the use of products is greatly restricted; [0003] A method for preparing a superlattice ceramic atomizing core of the present invention uses nano-superlattice materials as the raw material for the preparation of the atomizing core, has the characteristics of oxidation resistance and subconductor, and adopts a high-temperature vacuum plasma sputtering process. British and other insulators) form a conductive heatin...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B41/89A24F40/70
CPCC04B41/89C04B41/52A24F40/70C04B41/505C04B41/5049C04B41/5018C04B41/5012C04B41/5006C04B41/463C04B41/46C04B41/4535C04B41/5116
Inventor 周云峰程晓东王振弘
Owner 深圳雾曼科技有限公司