Our projects

Car Engine Piston

Automobile engines rely on the precise functioning of their pistons to ensure optimal performance. With the growing demand for high-performance vehicles, the need for CNC precision machining has become increasingly crucial. CNC machining offers the ability to fabricate pistons with utmost accuracy, resulting in improved quality and durability. This advanced technology allows for intricate designs and precise measurements, ensuring the pistons fit seamlessly within the engine block. The process involves cutting, drilling, and shaping the piston to meet the required specifications. By utilizing CNC precision machining, automobile manufacturers can guarantee that each piston meets the highest standards, enhancing the overall performance and efficiency of the engine.

Aircraft engine turbine blades

An example of an aircraft component involving CNC machining is the turbine blades of an aircraft engine. Turbine blades are vital components in an engine. They are used to extract gas from the combustion chamber and push it toward the turbine, which drives the engine. Since turbine blades require a high degree of precision, strength, and high temperature resistance, CNC precision machining technology is often used in the manufacturing process. CNC machining can ensure that turbine blades meet the precise requirements of the design and ensure their quality and reliability to meet the working requirements of aircraft engines.

Spur gear

Spur gears are commonly used in various industrial machinery and transmission systems. CNC processing and manufacturing can ensure the accuracy and quality of the gears. CNC machining can be used to produce parts such as tooth profiles, tooth spaces and holes of spur gears to ensure the correct shape and size of the gear. Such precise processing enables the gears to operate smoothly in various industrial equipment, ensuring the efficiency and stability of the transmission system.