The process principle and production process steps of nano Anti-fingerprint stainless steel

Nano Anti-fingerprint stainless steel is a special surface treatment process that reduces the adhesion of fingerprints and stains by forming a nano-scale special structure and coating on the surface of stainless steel, making the surface look cleaner, smoother and more beautiful. This process involves the application of physics, chemistry and nanotechnology. The following is the process principle and production process steps of Nano Anti-fingerprint stainless steel:

Nano Anti-fingerprint process principle:

1. Nano-scale surface treatment:

form tiny nano-scale structures on the surface of stainless steel by means of physics, chemistry or nanotechnology. These structures can be tiny depressions, bumps or nanoparticles, etc., which give the surface special properties.

2. Special coating:

After surface treatment, special nano-coating is applied. These coatings typically have a low surface energy, which reduces the adhesion of liquids and oils to the surface, thereby reducing fingerprints and smudges. At the same time, the coating can also increase the hardness and wear resistance of the stainless steel surface.

Nano Anti-fingerprint production process steps:

1. Surface cleaning:

First of all, make sure that the stainless steel surface is clean and dust-free. Clean the surface with an appropriate cleaner or solvent to remove stains, grease, dust and other impurities.

2. Nanoscale surface treatment:

In the surface treatment stage, one of the following methods can be used:

• a. Physical vapor deposition: such as magnetron sputtering technology, the metal atoms in the gas are controlled by a magnetic field to deposit on the surface of stainless steel to form nanoscale structures.
• b. Chemical methods: such as pickling or chemical etching, to form nanoscale structures on the surface of stainless steel through chemical reactions.
• c. Nanotechnology: such as self-assembly of nanoparticles or spraying of nanoscale coatings, etc., using nanotechnology to form surface structures.

3. Coating treatment:

After the nano-scale surface treatment is completed, special coating treatment is carried out. Coatings can be nanoscale materials or specially formulated coatings with surface energy reducing properties.

4. Oxidation treatment (optional):

In some cases, the surface can also be oxidized to form an oxide film. This film can further increase the hardness and wear resistance of the surface, while improving the anti-fingerprint performance.

5. Inspection and testing:

After the above process is completed, the treated stainless steel is inspected and tested to ensure that the surface structure and coating are uniform and meet the expected performance requirements.

For more information about Nano Anti-fingerprint stainless steel, please pay attention to: www.grandstainless.com