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Producing method of electrical steel extremely-thick insulating coating with good film-forming property

A technology of film-forming performance and insulating coating, applied in coating, device for coating liquid on surface, surface pretreatment, etc., can solve the problem of poor film-forming quality, poor scratch resistance of coating, coating peeling, etc. problems, to achieve the effect of facilitating coating adhesion, improving interfacial adhesion, and promoting film-forming properties

Active Publication Date: 2014-07-23
BAOSHAN IRON & STEEL CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

C6 coatings require extremely high surface insulation, H-level heat resistance, and hot-press stability. The coating formula generally contains a large amount of inorganic fillers with submicron particle sizes, and the dry film thickness of the coating is controlled to be 2 to 7 μm; The thick coating is applied on the surface of the steel plate, and there are great difficulties in the production and preparation process of the product, which can easily lead to coating defects, and make the film quality poor, manifested as poor coating adhesion and coating powder formation A series of problems such as bright spots, poor scratch resistance of the coating, coating peeling or paint bursting during stamping and shearing, seriously deteriorate the use characteristics of C6 coating products, and even cannot be used

Method used

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  • Producing method of electrical steel extremely-thick insulating coating with good film-forming property
  • Producing method of electrical steel extremely-thick insulating coating with good film-forming property
  • Producing method of electrical steel extremely-thick insulating coating with good film-forming property

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0038] The effects of different substrate states on the main properties of the coating were compared. See Table 1 for the process conditions of the annealing treatment of the non-oriented silicon steel substrate. The coating solution uses a water-soluble extremely thick C6 insulating coating with an inorganic solid content of 45-55wt% and a total solid content of 70-80wt%. The film is baked under the condition of ℃ plate temperature, and the dry film thickness of one side of the coating is controlled to be 5 μm. The coating performance results are shown in Table 2. It can be seen that the overall performance of the coating after forming a certain thickness of oxide layer on the surface of the substrate before coating is much better than that of the comparative example (the surface oxide layer is too thick or too thin).

[0039] Table 1

[0040]

[0041] Table 2

[0042]

[0043]

[0044] (Note 1: Evaluation symbols are: ◎Excellent; 〇Good; △General; ×Poor)

[0045...

Embodiment 2

[0047] Compare the effects of different coating baking and curing methods on the coating. The process conditions for the annealing treatment of the non-oriented silicon steel substrate adopt the above-mentioned embodiment 1-1, apply the paint on the surface of the substrate with a roller coater as described in embodiment 1, and control the dry film thickness of one side of the coating to be 5 μm; The different baking methods shown (make sure that the plate temperature of each type of process is in the range of 200-280°C, preferably in the range of 240-280°C) correspond to different coating performance results.

[0048] It can be seen from Table 3 that conventional convection baking combined with high-infrared composite heating process has the best comprehensive performance on the coating.

[0049]

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Abstract

A producing method of an electrical steel extremely-thick insulating coating with a good film-forming property comprises the following steps that (1) adopted insulating paint is composed of, by weight, 10%-60% of organic resin, 28%-60% of inorganic color filler, 1%-15% of auxiliaries and solvents and the balance pure water; (2) surface treatment is conducted on a substrate, wherein surface modification treatment is conducted on the Fe-Si alloy substrate with the silicon content ranging from 1.5wt% to 3.0wt%, the surface of the substrate is covered with an oxidation film layer, and the surface roughness of the substrate is greater than or equal to 0.4 micron; (3) annealing is conducted, wherein the annealing temperature ranges from 780 DEG C to 1000 DEG C and is kept for 10 seconds-20 seconds, and the annealing atmosphere is a hydrogen and nitrogen gas mixture; (4) baking and curing are conducted, the baking process or the multi-band high infrared heating process or a combination of the baking process and the multi-band high infrared heating process is adopted. The film-forming property of the coating obtained with the method is excellent, and meanwhile the method has the advantages that the solid content required by the electrical steel environment-friendly extremely-thick insulating coating is high, surface insulativity and adhesiveness are excellent, and hot-pressing stability and corrosion resistance are good.

Description

technical field [0001] The invention relates to the production technology of electrical steel products, in particular to a production method of an extremely thick insulating coating for electrical steel with good film-forming properties. The ultra-thick insulating coating is applied to electrical steel sheets for large and medium-sized generators. In addition to ensuring the basic properties such as insulation, punching and shearing processability, and heat resistance required by the coating, it also has excellent film-forming properties, which are specifically reflected in the good adhesion of the coating and better protection for the substrate. Background technique [0002] Electrical steel products are widely used in the iron core materials of motors and transformers. In order to reduce the short circuit between the laminations of electrical steel sheets and increase the eddy current loss, it is necessary to coat the surface with an insulating coating. Large and medium-si...

Claims

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Application Information

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IPC IPC(8): B05D7/14B05D3/02C09D5/25
Inventor 李登峰杨勇杰许云鹏吉亚明赵自鹏黄杰陈卓雷谷维
Owner BAOSHAN IRON & STEEL CO LTD
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