Fingerprint-free antistatic steel plate
[ technical field ] A method for producing a semiconductor device
The application relates to the technical field of metal plates, in particular to an anti-static steel plate without fingerprints.
[ background of the invention ]
In recent years, a fingerprint-free treatment technology of a steel plate becomes one of important methods for improving the additional performance of a product, the main treatment process is to coat a layer of fingerprint-resistant varnish on the surface of the steel plate, then bake or self-dry the varnish to form a fingerprint-resistant coating, and then endow the steel plate with fingerprint resistance, so that the existing fingerprint-free steel plate is widely applied to the fields of household appliances, automobiles, building materials and the like.
However, the performance of the existing non-fingerprint steel plate is still single, and cannot meet more application requirements, so that the popularization and use of the non-fingerprint steel plate are greatly restricted, and therefore, the technical personnel in the field need to develop a non-fingerprint antistatic steel plate urgently.
[ Utility model ] content
The present application is to solve the above-mentioned existing technical problem that is aimed at, provides a no fingerprint antistatic steel sheet.
In order to solve the technical problem, the method is realized by the following technical scheme:
there is not antistatic steel sheet of fingerprint, including the substrate, by interior toward having set gradually transition layer, antistatic coating, resistant fingerprint coating outward on the substrate openly, insulating coating, UV coating have been set gradually outward by interior on the substrate reverse side.
According to the fingerprint-free antistatic steel plate, the antistatic coating is coated by adopting the antistatic coating, and the thickness range of the antistatic coating is 5-15 micrometers.
According to the fingerprint-free antistatic steel plate, the fingerprint-resistant coating is coated by adopting the transparent fingerprint-resistant varnish, and the thickness range of the fingerprint-resistant coating is 2-8 mu m.
According to the fingerprint-free antistatic steel plate, the insulating coating is coated by adopting the insulating paint, and the thickness range of the insulating coating is 10-60 mu m.
As above-mentioned no fingerprint antistatic steel plate, still be provided with on the substrate openly and be located the transition layer with the base colour coating between the antistatic coating, and still be provided with and be located the base colour coating with the photochromic coating between the antistatic coating.
According to the fingerprint-free antistatic steel plate, the ground color coating is coated by adopting the water-based black paint, and the thickness range of the ground color coating is 15-30 mu m;
the photochromic coating is coated by a water-based photochromic coating, and the thickness range of the photochromic coating is 10-20 mu m.
According to the fingerprint-free antistatic steel plate, the front surface of the base material is also provided with a first outer side protective film layer positioned on the outer side of the fingerprint-resistant coating;
and the reverse side of the substrate is also sequentially provided with a high-temperature-resistant coating and a second outer side protective film layer which are positioned on the outer side of the UV coating.
According to the fingerprint-free antistatic steel plate, the UV coating is coated by adopting an ultraviolet curing coating, and the thickness range of the UV coating is 5-50 mu m;
the high-temperature-resistant coating is formed by coating an organic silicon high-temperature-resistant paint, and the thickness range of the high-temperature-resistant coating is 8-20 mu m;
the first outer side protection film layer and the second outer side protection film layer are both PE films, or both PET films, or both CPP films, and the thickness ranges of the first outer side protection film layer and the second outer side protection film layer are both 30-80 mu m.
According to the fingerprint-free antistatic steel plate, the transition layer is a nickel-plated coating, and the thickness range of the transition layer is 10-20 micrometers.
According to the fingerprint-free antistatic steel plate, the transition layer is a sand blasting layer, and the roughness range of the transition layer is 50-80 mu m.
Compared with the prior art, the application has the following advantages:
1. this application does not have fingerprint antistatic steel plate passes through set up on the substrate openly antistatic coating to make this application not only have obvious antistatic effect, and still have outstanding characteristics such as wear-resisting, green pollution-free, convenient to use, make then this application can satisfy more realistic user demand, in addition again through set up in on the substrate reverse side insulating coating is in order to realize improving the electrical insulation performance of this application, and passes through the UV coating is in order to realize more comprehensive endowing the wearability, the durability of substrate to can furthest improve product quality and market competition, and then be favorable to promoting the application of high resistant fingerprint steel plate field.
2. This application does not have fingerprint antistatic steel board passes through the substrate sets up on the front the photosensitive discoloration coating, so that the substrate is given changeable color on the front, then not only can improve greatly the pleasing to the eye degree and the decorative of substrate, and still can pass through the pollution of fingerprint is avoided in order to realize to resistant fingerprint coating to can reach anti fingerprint pollution's use purpose.
[ description of the drawings ]
Fig. 1 is a schematic cross-sectional view of an anti-static steel plate without fingerprints according to the present application.
[ detailed description ] embodiments
The present application will be described in further detail below with reference to the accompanying drawings by way of specific embodiments.
As shown in fig. 1, the fingerprint-free antistatic steel plate comprises a substrate 1, wherein a transition layer 2, an antistatic coating 5 and a fingerprint-resistant coating 6 are sequentially arranged on the front surface of the substrate 1 from inside to outside, and an insulating coating 8 and a UV coating 9 are sequentially arranged on the back surface of the substrate 1 from inside to outside.
This application does not have fingerprint antistatic steel plate through set up on substrate 1 openly antistatic coating 5 to make this application not only have obvious antistatic effect, and still have outstanding characteristics such as wear-resisting, green pollution-free, convenient to use, make then this application can satisfy more realistic user demand, in addition the rethread set up in on the substrate 1 reverse side insulating coating 8 is in order to realize improving the electrical insulation performance of this application, and pass through UV coating 9 is in order to realize more comprehensive endowing substrate 1's wearability, durability to can furthest improve product quality and market competition, and then be favorable to promoting the application field of high resistant fingerprint steel plate.
Further, the antistatic coating 5 is coated by an antistatic coating, such as a colorless transparent antistatic coating produced by Beijing Haohawa Zhengzhen technology Limited company No. RB-048; the thickness range of the antistatic coating 5 is 5-15 μm, and preferably 10 μm. The colorless transparent antistatic coating has the outstanding characteristics of obvious antistatic effect, wear resistance, greenness, no pollution, convenient use and the like, and can further meet the practical use requirements.
Furthermore, the fingerprint-resistant coating 6 is coated by transparent fingerprint-resistant varnish, and the transparent fingerprint-resistant varnish can be water-based bright fingerprint-resistant oil produced by Pasida technologies, Inc. of Shenzhen, or KNF varnish produced by Guangdong Sony chemical, Inc. The thickness range of the fingerprint-resistant coating 6 is 2-8 mu m, and the preferable thickness is 5 mu m. The fingerprint-resistant coating has the advantages that the fingerprint-resistant effect is formed, so that the aim of resisting fingerprint pollution to the maximum extent is fulfilled, and the phenomenon that the appearance of a product is influenced by the fact that the surface gloss is lost due to fingerprint pollution is avoided.
Furthermore, the insulating coating 8 is coated by using an insulating coating, the thickness range of the insulating coating is 10-60 μm, and the preferable thickness is 30 μm, so that the insulating coating has the advantages of not only having excellent electrical insulating property, but also improving the mechanical impact resistance and thermal impact resistance.
Furthermore, the front surface of the base material 1 is also provided with a ground color coating 3 positioned between the transition layer 2 and the antistatic coating 5, and a photochromic coating 4 positioned between the ground color coating 3 and the antistatic coating 5.
The base color coating 3 is coated by water-based black paint, the thickness range of the base color coating is 15-30 mu m, preferably 18 mu m, and the purpose of the base color coating is to enable the photochromic coating 4 to have more prominent color change effect. Of course, the base coat 3 can also be replaced by other dark coats in order to meet as many production requirements as possible.
Furthermore, the photochromic coating 4 is coated by using an aqueous photochromic paint, such as an aqueous photochromic paint produced by Zhang Jia Kangkang New photoelectric Material Co., Ltd, and the thickness of the photochromic coating 4 is in the range of 10 to 20 μm, preferably 12.5 μm. The water-based photochromic coating has the advantages of not only having outstanding using effects of strong adhesive force, high curing speed and the like, but also having excellent properties of environmental protection.
Furthermore, a first outer side protective film layer 7 positioned outside the fingerprint-resistant coating 6 is also arranged on the front surface of the base material 1; the reverse side of the substrate 1 is also sequentially provided with a high-temperature-resistant coating 10 and a second outer side protective film layer 11 which are positioned on the outer side of the UV coating 9.
The UV coating 9 is coated by adopting an ultraviolet curing coating, the thickness range is 5-50 mu m, the preferable thickness is 25 mu m, and the UV coating has the advantage that a protective coating is formed on the reverse side of the substrate 1 and is used for further improving the environmental adaptability of the application.
The high-temperature-resistant coating 10 is coated by an organic silicon high-temperature-resistant coating, the thickness range of the coating is 8-20 mu m, the preferable thickness is 12 mu m, and the high-temperature-resistant coating has the advantage of improving the high-temperature-resistant characteristic of the application, so that the application can be suitable for a high-temperature environment of 250-800 ℃.
The first outer protective film layer 7 and the second outer protective film layer 11 are both PE films, or both PET films, or both CPP films, and the thickness range is 30-80 μm, and the preferred thickness is 50 μm.
Furthermore, the transition layer 2 is a nickel-plated coating, the thickness range of the transition layer is 10-20 μm, the preferable thickness is 15 μm, the nickel-plated coating is adopted to improve the bonding strength of the base material 1 coated with other coatings, so that the transition effect is realized, the wear resistance, the surface hardness and the high temperature resistance of the base material 1 can be improved, the adaptability of the forming process can be greatly improved, and the processing requirements of punching, cutting, bending and the like are further met.
Of course, the transition layer 2 can also be a sand blasting layer, and the roughness thereof is in the range of 50 to 80 μm, preferably 60 μm. The anti-fatigue coating has the advantages that the anti-fatigue performance of the base material 1 can be improved, the adhesive force of other coatings can be increased, the transitional effect of the coatings is realized, the durability of the coatings is prolonged, and the service life of the coating can be further prolonged.
Furthermore, the substrate 1 is a stainless steel plate or a tinplate steel plate, and aims to meet various production requirements.
As described above, the embodiments of the present application have been described in detail, but the present application is not limited to the above embodiments. Even if various changes are made in the present application, the protection scope of the present application is still included.