The application structure of the AF anti-fingerprint nanometer coating on the surface of the product mainly consists of an oil trap layer, a water trap layer, and an anti-fouling plating layer. The method of plasma spraying is adopted. At the stage of feeding, the substrate surface is cleaned by plasma cleaning technology to improve the surface performance, and then the nanometer anti-fingerprint oil is used to form a high-quality anti-fingerprint film on the surface of ceramic materials or glass materials by high-pressure atomization spraying (AF anti-fingerprint nanometer coating).

　　Ceramic materials or glass materials have been widely used in many industries, and AF anti-fingerprint nano-coating has become a new competitive market. Ceramic or glass materials, when equipped with an AF fingerprint resistant nano-coating process, will have the minimum surface tension of the product, thereby reducing dust and product contact (by nearly 90 per cent), giving the product better hydrophobic, fingerprint and oil resistance.

　　The benefits of AF nano-coating are not limited to the types of nano-fingerprint oils used: super-smooth, wear-resistant, antibacterial, and non-baking. Through these types, we can choose the suitable coating nanometer fingerprint oil according to our own product market, application scenario, and application field, and choose the suitable consumables.

　　so that their products have the best market performance (such as smooth, antibacterial, wear-resistant, water-angle, anti-pollution, anti-scratch performance, etc.), with the right formula to meet the right customers, so as to achieve quality and efficient development.

　　It is also important to note that the application of an AF fingerprint-resistant nano-coating process enables the product to be completely fingerprint resistant (mistaken belief that there are residues whenever there is contact, the aim being to reduce residues and make it easier to clean). AF nano-coating is not enough to prevent fingerprints. The main features of nano-coating are that it is easy to clean, reduces the adhesion of fingerprints, and reduces the residue of stains on the surface, so that you can easily remove the stains when you use the product.

　　Compared with fingerprint protection, the AF nano-coating coating process can also provide good auxiliary performance for the quality and performance of products. First of all, for display products, for example, the glass covers of mobile phones, smart watches, tablet computers, commercial displays, on-board displays, and other industries are high-frequency use products, the number of times of contact is uncountable, and the probability of leaving fingerprint stains can be imagined. If the AF nano-coating process is adopted, the stain retention can be greatly reduced, and the cleaning performance is easier for market users to use.

　　In recent years, we have also had a deep feeling about the application of electronic products. First of all, if we use electronic display products that do not prevent fingerprints or pollution, they affect our visual perception. Secondly, in areas where there are many people, such as mobile phones, commercial displays, and vehicles, the products appear very dirty and lower in overall quality (not because they are not cleaned, but because they are used frequently and not thoroughly cleaned). This is also a major sore point in the current market.

　　In recent years, the demand of consumers for tactile and visual experiences has become more and more obvious. Better grasping the core demands of market users can help enterprises make more core market breakthroughs.