| Electrochemical Machining | A non-traditional machining process that removes material using an electrochemical reaction. | Complex geometries and hard materials. | Precise shaping, minimal tool wear, and ability to machine difficult materials. |
| CNC Machining | Computer-controlled machining to create parts with high precision. | Automotive components like engine blocks and housings. | High repeatability, flexibility for complex shapes, and improved productivity. |
| Laser Cutting | Using a laser to cut materials in various thicknesses with high precision. | Sheet metal fabrication for body parts. | Clean edges, high precision, and reduces material wastage. |
| 3D Printing | An additive manufacturing process that builds parts layer by layer. | Prototyping and custom parts production. | Design flexibility and rapid prototyping capabilities. |
| Milling | A machining process that involves rotating a cutting tool to remove material from a workpiece. | Creating flat surfaces, grooves, and complex shapes. | Versatility and precision in creating a variety of part shapes. |
| Turning | A machining process where a workpiece is rotated against a cutting tool. | Manufacturing cylindrical parts such as shafts and rods. | High precision and effective for producing round shapes. |
| Grinding | A process that uses an abrasive wheel to remove material and achieve a smooth finish. | Final finishing of parts to precise dimensions. | Achieves high surfaces finishes and tight tolerances. |
| Electrical Discharge Machining (EDM) | A non-traditional process that uses electrical sparks to erode material. | Producing intricate shapes, especially in hard metals. | High precision and ability to machine very hard materials. |
| Waterjet Cutting | Using high-pressure water jets to cut through materials. | Cutting soft and hard materials without affecting their properties. | No heat-affected zone, allowing for clean cuts in various materials. |
| Stamping | Using a die to shape and cut material into desired forms. | Producing sheet metal parts en masse. | Highly efficient for high-volume production. |