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Our Processes

Aluminum plate-milled

Aluminum plate milling is a precise machining method used to shape aluminum plates into desired forms. It involves securing the aluminum plate onto a milling machine, which removes excess material using rotating cutting tools. Computer-controlled movements ensure accuracy, allowing intricate designs to be carved with high precision. The process requires expertise to select appropriate cutting speeds, feeds, and tooling to achieve the desired finish and dimensional accuracy. Post-milling, the aluminum plate may undergo additional processes like deburring or surface treatment for a polished final product.

Steel sheet-laser cut

Steel sheet laser cutting is a high-precision manufacturing process used to cut intricate shapes and patterns from steel sheets. A focused laser beam heats the material, melting or vaporizing it along the desired cutting path. Computer-controlled precision ensures accuracy, allowing for intricate designs with minimal material wastage. This method offers several advantages, including fast processing times, high repeatability, and the ability to cut various thicknesses of steel. It finds applications across industries like automotive, aerospace, and electronics, where precise components are crucial. Post-cutting, the steel parts may undergo further finishing processes like deburring or surface treatment for enhanced quality.

Polycarbonate sheet-milled

Polycarbonate sheet milling is a precise machining process employed to shape polycarbonate sheets into desired forms. The sheets are secured onto a milling machine, where rotating cutting tools carefully remove excess material. Computer-guided movements ensure accuracy, enabling intricate designs to be carved with precision. Expertise is essential in selecting optimal cutting parameters such as speeds and feeds to prevent overheating or deformation of the polycarbonate. This method is vital in industries requiring customized polycarbonate components, including aerospace, automotive, and electronics. Post-milling, additional processes like polishing or edge finishing may be applied for a refined final product.

Aluminum rod-turned

Aluminum rod turning is a machining technique used to shape aluminum rods into desired cylindrical forms. The rod is clamped onto a lathe machine, where it rotates against a stationary cutting tool. Precision is achieved through computerized control, ensuring accurate dimensions and surface finishes. Operators select appropriate cutting speeds and feeds to optimize material removal while maintaining integrity. This process is crucial in industries such as aerospace, automotive, and construction, where precise cylindrical components are required. Post-turning, the aluminum rod may undergo further processes like polishing or coating to enhance its functionality and appearance for various applications.

Steel plate-milled

Steel plate milling involves shaping steel plates using rotating cutting tools for precise dimensions and finishes. The process begins with securing the steel plate onto a milling machine, where the cutting tools remove excess material. Computer-controlled movements ensure accuracy, enabling intricate designs to be crafted efficiently. Skilled operators select optimal cutting parameters like speeds and feeds to achieve desired results without compromising structural integrity. Steel plate milling finds extensive use in industries such as construction, manufacturing, and automotive for producing a wide range of components and structures. Post-milling, additional treatments like deburring or surface finishing may be applied to enhance the final product’s quality.

Steel rod-turned

Steel rod turning is a machining process where a steel rod is rotated against a stationary cutting tool on a lathe machine. This method shapes the rod into desired cylindrical forms with precision. Computer-controlled movements ensure accurate dimensions and surface finishes. Operators adjust cutting parameters such as speeds and feeds to optimize material removal while maintaining structural integrity. Steel rod turning is vital in industries like automotive, aerospace, and manufacturing, where precise cylindrical components are essential. Post-turning, the rods may undergo further treatments like polishing or coating for improved functionality and appearance, making this process integral to various industrial applications.

Brass rod-turned

Brass rod turning is a machining technique used to shape brass rods into precise cylindrical forms. The process involves securing the brass rod onto a lathe machine and rotating it against a stationary cutting tool. Computer-controlled movements ensure accuracy in shaping and dimensioning the rod. Skilled operators adjust cutting parameters like speeds and feeds to optimize material removal while maintaining the integrity of the brass. This method is crucial in industries such as electronics, plumbing, and musical instrument manufacturing, where precise cylindrical components are required. Post-turning, additional finishing processes like polishing or plating may be applied to enhance the brass rod’s surface quality and appearance.

Copper sheet-turret punched

Brass rod wire electrical discharge machining (EDM) is a precise manufacturing method used to shape brass rods into intricate designs. The process involves submerging the rod in a dielectric fluid while an electrically charged wire erodes the material with controlled sparks. Computer-guided movements ensure precise cuts, allowing for complex shapes with tight tolerances. This method is favored for its ability to work with hard materials like brass without inducing mechanical stress. Brass rod wire EDM is widely used in industries requiring intricate components, such as electronics, aerospace, and medical devices, where precision and fine detail are paramount.ality.

Copper sheet-turret punched

Copper sheet turret punching is a precise manufacturing process used to create intricate patterns and shapes in copper sheets. The process involves mounting the copper sheet onto a turret punch press equipped with a variety of interchangeable punches and dies. Computer-guided programming ensures accurate punching according to the specified design. Turret punching offers high-speed production capabilities and can handle a range of sheet thicknesses. It is commonly used in industries such as electronics, automotive, and architecture for applications including electrical components, decorative panels, and circuit boards. Post-punching, the copper sheet may undergo additional processes such as bending or surface treatment for further