Research on the internal surface water resistance of glass

Glass is an important building material that is widely used in architecture, home furnishing, instrument manufacturing and other fields. However, the internal surface of glass is prone to moisture damage, leading to a decline in surface quality and affecting its performance. Therefore, it is crucial to study the water resistance of the internal surface of glass.

We focus on studying the methods to improve the water resistance of the internal surface of glass, including surface coating, surface modification, and surface micro/nanostructure control.

Surface coating is a commonly used method to improve the water resistance of glass. By coating a layer of waterproof coating on the glass surface, it can effectively block direct contact between the glass surface and moisture, thereby延缓 glass internal surface corrosion and deterioration. Currently, commonly used coating materials include organic silicon, fluorides, and metal oxides.

Surface modification is a method to change the properties of the glass surface through physical or chemical methods to improve its water resistance. For example, through ion exchange, plasma treatment, chemical vapor deposition and other technologies, a modified layer with excellent water resistance can be formed on the glass surface.

Surface micro/nanostructure control is a method to improve the interaction between the glass surface and water molecules by changing the micro/nanostructure of the glass surface. For example, by preparing micro/nanostructure arrays or bionic structures on the glass surface, the ability to resist water droplet adhesion and water penetration can be significantly improved.

Finally, we summarize the methods and technologies to improve the water resistance of the internal surface of glass, and explore future research directions. With the continuous development of technology, it is believed that more advanced technologies and methods will be applied to enhance the water resistance of glass in the future, bringing more convenience and safety to people's lives and work.