Our Capabilities

Laser cutting is a technology that uses a high-energy laser beam to precisely cut materials. Its core principle is to achieve the desired cutting effect by melting, vaporizing, or ablating the material through the thermal effect of the laser.

Shearing is a process that mechanically separates sheet metal along a specific cross-section. It is widely used in manufacturing and sheet metal fabrication. Shearing creates tensile stress at a 45-degree angle and compressive stress at right angles, ultimately leading to fracture at the sheared surface.

Sheet metal forming (Forming) is a process that transforms sheet metal into a desired shape through plastic deformation. Its core advantages and technical features are as follows: It is suitable for mass production of complex parts, such as automotive body parts, and achieves high-precision forming through die processing.

Sheet metal bending is a core process in sheet metal fabrication. It involves mechanically deforming sheet metal using plastic force. It is widely used in sheet metal manufacturing, automotive parts, building structures, and other fields.

Thermoset injection molding (TIM) is a process that solidifies plastics through a chemical cross-linking reaction. Compared to thermoplastic injection molding, it offers unique advantages and applications. The core advantages of TIM lie in material performance, process efficiency, and suitability for industrial applications.

Thermoplastic injection molding is a highly efficient manufacturing process that heats and melts thermoplastic material, injects it into a mold cavity, and solidifies it after cooling. Its core strengths include high production efficiency, the ability to mold complex geometries, and a wide range of material compatibility (such as PP, ABS, and nylon).