中文简体Ultra-clear and ultra-white glass has become an important material in modern architecture and design due to its light transmittance and low chromatic aberration. However, this glass not only performs well in its original form, it is also known for its deep processing properties. Ultra-clear and ultra-white glass can be processed in a variety of ways, such as tempered, laminated, coated, sandblasted and screen-printed, to meet the design and functional needs of different projects.
Tempered treatment: enhanced strength and safety
Tempered glass is made through heating and rapid cooling and is several times stronger than ordinary glass. After being tempered, ultra-transparent ultra-white glass with a thickness of 4-12mm can not only provide higher impact resistance and heat resistance, but also form small obtuse-angled particles when broken, reducing damage to the human body. This treatment makes tempered ultra-transparent ultra-white glass widely used in situations that require high strength and safety, such as building curtain walls, doors, windows, and shower rooms.
Laminated treatment: provides extra security and functionality
Laminated glass is made by sandwiching one or more layers of PVB (polyvinyl butyral) film between two or more layers of glass and bonding them through high temperature and high pressure. After ultra-clear and ultra-white glass is laminated, it not only has higher safety (glass fragments will not fly when broken), but can also increase sound insulation, heat insulation and UV protection. This type of glass is often used in building structures such as skylights, floors and partition walls where additional protection and functionality are required.
Coating treatment: improve optical performance
Coating treatment is to coat one or more layers of metal or metal oxide films on the surface of glass to change its optical properties. After being coated, ultra-transparent and ultra-white glass can have better reflection, transmission and absorption properties. For example, low-emissivity (Low-E) coating can effectively reduce heat loss in a building and improve energy efficiency; anti-glare coating can reduce reflected light and improve visual comfort. This type of glass is commonly used in applications such as energy-efficient buildings and high-end displays.
Sand blasting: creating artistic effects
Sandblasting is the process of etching the glass surface by spraying fine particles at high speed to create a frosted effect. After sandblasting, ultra-clear and ultra-white glass can present various textures and patterns, increasing visual beauty and privacy. Sandblasted glass is widely used in decorative glass walls, partitions and artworks. It is not only beautiful, but also has anti-slip, anti-glare and other functions.
Screen printing: rich design possibilities
Screen printing is to print ink onto the glass surface through a screen template to form patterns or text. After screen printing, ultra-transparent and ultra-white glass can present a variety of patterns and colors to meet personalized design needs. Widely used in areas such as interior decoration, billboards and building facades, this technology not only enhances aesthetic value but also enhances brand identity.
Ultra-clear and ultra-white glass has occupied an important position in the field of architecture and design due to its high transparency and low color difference. And its deep processing performance adds infinite possibilities to this kind of glass. Through various processing treatments such as tempering, lamination, coating, sandblasting and screen printing, ultra-clear and ultra-white glass has not only been greatly improved in safety, functionality and aesthetics, but can also meet the design and functions of different projects. need. With the continuous advancement of technology, ultra-clear and ultra-white glass will show its unique charm in more fields, injecting new vitality into modern architecture and design.
