Precision machining is a manufacturing process aimed at producing parts with extremely accurate dimensions and tolerances. It relies on sophisticated CNC (Computer Numerical Control) machines and specialized technical expertise. This technique is essential across many industries—from aerospace to electronics and medicine—because it enables the production of high-tech components with exceptional quality. It also offers benefits such as cost reduction, improved quality, and production flexibility. In summary, precision machining plays a crucial role in creating cutting-edge products.
Turning is an advanced manufacturing technique used to shape metal or plastic parts. In 2-axis turning, the part rotates on one axis while the tool cuts on another. In 4-axis turning, two additional rotational axes allow for the creation of more complex parts. This technique relies on CNC machines and is crucial for producing high-precision components used in various industries.
Milling is a manufacturing process used to shape parts. There are two main types: 3-axis, 4-axis, and 5-axis milling. In 3-axis milling, the part remains fixed while the tool moves along three axes (X, Y, and Z). This method is suitable for flat surfaces and depth cuts. 5-axis milling is the most advanced, allowing the part to rotate and tilt on two additional axes, in addition to the three axes of tool movement. This capability enables the creation of complex 3D parts. Both methods use high-precision CNC machines and are essential for producing high-tech components.
