The tempering process involves subjecting glass to high temperatures and then rapidly cooling it. This controlled thermal treatment enhances the strength and safety of the glass, making it more durable and resistant to breakage.

Area of Usage: Widely utilized in the automotive industry for windshields and side windows, as well as in architectural applications for safety glass in doors, windows, and facades.

Utilizing computer numerical control (CNC), this process involves precise and automated cutting of glass to achieve special shapes and designs. It ensures accuracy and consistency in the final product.

Area of Usage: Versatile applications across industries, including automotive for custom-shaped glass components, furniture for precision glass pieces, and architectural projects for special designs.

Utilizing computer numerical control (CNC), this process involves precise and automated cutting of glass to achieve special shapes and designs. It ensures accuracy and consistency in the final product.

Area of Usage: Versatile applications across industries, including automotive for custom-shaped glass components, furniture for precision glass pieces, and architectural projects for special designs.

Utilizing computer numerical control (CNC), this process involves precise and automated cutting of glass to achieve special shapes and designs. It ensures accuracy and consistency in the final product.

Area of Usage: Versatile applications across industries, including automotive for custom-shaped glass components, furniture for precision glass pieces, and architectural projects for special designs.

Beveling is a technique that creates angled edges on glass. This process is often employed for decorative purposes, enhancing the aesthetics of the glass and adding a touch of sophistication.

Area of Usage: Commonly applied in furniture design, decorative mirrors, and architectural elements, enhancing the aesthetic appeal of glass surfaces.

Beveling is a technique that creates angled edges on glass. This process is often employed for decorative purposes, enhancing the aesthetics of the glass and adding a touch of sophistication.

Area of Usage: Commonly applied in furniture design, decorative mirrors, and architectural elements, enhancing the aesthetic appeal of glass surfaces.

Beveling is a technique that creates angled edges on glass. This process is often employed for decorative purposes, enhancing the aesthetics of the glass and adding a touch of sophistication.

Area of Usage: Commonly applied in furniture design, decorative mirrors, and architectural elements, enhancing the aesthetic appeal of glass surfaces.

Beveling is a technique that creates angled edges on glass. This process is often employed for decorative purposes, enhancing the aesthetics of the glass and adding a touch of sophistication.

Area of Usage: Commonly applied in furniture design, decorative mirrors, and architectural elements, enhancing the aesthetic appeal of glass surfaces.

CNC technology is employed to drill precise holes in glass, offering versatility in design and functionality. This process is crucial for various applications, including mounting and installation.

Area of Usage: Essential for the installation of glass panels in various industries, including construction, furniture, and automotive applications.

CNC technology is employed to drill precise holes in glass, offering versatility in design and functionality. This process is crucial for various applications, including mounting and installation.

Area of Usage: Essential for the installation of glass panels in various industries, including construction, furniture, and automotive applications.

Using computer-controlled machinery, CNC edge polishing achieves smooth and refined edges on glass. This process enhances the glass's visual appeal and ensures a high-quality finish.

Area of Usage: Primarily employed in architectural projects, contributing to the overall visual appeal.

Using computer-controlled machinery, CNC edge polishing achieves smooth and refined edges on glass. This process enhances the glass's visual appeal and ensures a high-quality finish.

Area of Usage: Primarily employed in architectural projects, contributing to the overall visual appeal.

Using computer-controlled machinery, CNC edge polishing achieves smooth and refined edges on glass. This process enhances the glass's visual appeal and ensures a high-quality finish.

Area of Usage: Primarily employed in architectural projects, contributing to the overall visual appeal.

Manual sandblasting is a hands-on approach to surface treatment, allowing for artistic and customized designs on glass. It offers a unique and personalized touch to the glass surface.

Area of Usage: Artistic and personalized applications, commonly seen in decorative glass items and customized glassware.

Automatic sandblasting ensures precision and repeatability in achieving desired patterns or textures on glass.

Area of Usage: It is effectively applied in large-scale projects such as glass panels on building exteriors.

Chamfering involves creating beveled edges on glass. This process serves both aesthetic and functional purposes, providing a safer and visually appealing finish to the glass.

Area of Usage: It is commonly applied in the furniture industry for glass tables and edges and widely employed in architectural processes.

Water jet cutting is a precision technique that utilizes high-pressure water flow to cut through glass. This process provides versatility in glass cutting, making it ideal for intricate patterns and designs.

Area of Usage: Provides precise cutting capabilities within architectural settings.

In horizontal edge polishing, glass edges are polished in a horizontal orientation. This technique is employed for specific applications where horizontal polishing is preferred.

Area of Usage: This process ensures the horizontal polishing of glass edges.

In horizontal edge polishing, glass edges are polished in a horizontal orientation. This technique is employed for specific applications where horizontal polishing is preferred.

Area of Usage: This process ensures the horizontal polishing of glass edges.

This process ensures the thorough cleaning of glass surfaces.

Area of Usage: Essential for maintaining cleanliness and clarity in various glass applications, including windows, mirrors, and architectural glass surfaces.

Surface channeling involves creating channels or grooves on the glass surface. This process serves various design or functional purposes, allowing for unique and customized glass applications.

Area of Usage: Applied in architectural projects for unique design elements.

Silk screen printing is a method of applying decorative or functional patterns to glass surfaces.

Area of Usage: Widely used in architectural applications for custom-designed glass surfaces.

Following silk screen printing, the subsequent step involves the baking process.

Area of Usage: It can be utilized in various applications, including decorative glass panels and tables.