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Research and Application of Anti-Fingerprint and Anti-Stain Technologies for Zinc Alloy Handles

Introduction

Zinc alloy handles are widely used in various fields due to their excellent mechanical properties and aesthetic appearance. However, the surface of zinc alloy handles is prone to fingerprint and stain contamination, which affects the appearance and hygiene. In order to solve this problem, anti-fingerprint and anti-stain technologies have been developed and applied in the production of zinc alloy handles. This article will introduce the research and application of these technologies.

Anti-Fingerprint Technologies

1. Surface coating technology: A layer of hydrophobic and oleophobic coating is applied to the surface of the handle, which can effectively prevent the adhesion of fingerprints and stains.

2. Nano-texture technology: By using laser or other methods to create a micro-nano texture on the surface of the handle, the surface energy is increased, and the adhesion of fingerprints and stains is reduced.

3. Plasma treatment technology: The surface of the handle is treated with plasma, which can increase the surface energy and hydrophilicity, and reduce the adhesion of fingerprints and stains.

Anti-Stain Technologies

4. Self-cleaning technology: A layer of photocatalytic coating is applied to the surface of the handle, which can decompose organic pollutants and prevent the adhesion of stains.

5. Antibacterial technology: By adding antibacterial agents to the surface coating or the raw material of the handle, the growth of bacteria can be inhibited, and the handle can be kept clean and hygienic.

6. Anti-corrosion technology: The surface of the handle is treated with anti-corrosion coating, which can effectively prevent the corrosion caused by sweat, oil, and other substances.

Application of Anti-Fingerprint and Anti-Stain Technologies

7. In the field of household appliances, anti-fingerprint and anti-stain technologies are widely used in the production of refrigerator handles, oven handles, and dishwasher handles.

8. In the field of furniture, anti-fingerprint and anti-stain technologies are applied to the production of cabinet handles, drawer handles, and wardrobe handles.

9. In the field of public facilities, anti-fingerprint and anti-stain technologies are used in the production of door handles, handrails, and elevator buttons.

10. In the field of medical equipment, anti-fingerprint and anti-stain technologies are applied to the production of instrument handles, bed rails, and infusion stands.

Conclusion

Anti-fingerprint and anti-stain technologies have become an important means to improve the appearance and hygiene of zinc alloy handles. With the continuous development of technology, more advanced and efficient anti-fingerprint and anti-stain technologies will be developed and applied in the production of zinc alloy handles, which will further improve the quality and value of zinc alloy handles.

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