Quality Assurance from FANUC, HAAS, BROTHER, and others

TESA/Zeiss CMM precision; 99.8% ultra-high quality rate

Low prices and swift delivery, even for 1PCS orders

Size is very big, 338mm(L) x167m(W) x 146mm(H), High precision requirements, multiple size requirements are ±0.01-0.012mm. Before cooperating with ChooseZ, we had 3 suppliers who produced this part, but all of them failed; ChooseZ treated the workpiece as seriously as an exquisite artwork, they focused whole on it and not afraid of difficulties, and finally succeeded after 45 days and nights. We really admire their craftsman spirit!

CNC turning is a subtractive manufacturing process that utilizes computer-controlled machines to shape cylindrical or rotational parts. During turning, a workpiece rotates while a cutting tool removes material to create the desired shape. This versatile method is widely employed for creating components like shafts, pins, and custom cylindrical parts in various industries.

Tooling is critical in CNC turning, with tools like inserts, drills, and boring bars playing essential roles. The proper selection and maintenance of these tools are crucial for achieving accurate and efficient turning results. Understanding the various tool types and their applications is fundamental to successful CNC turning operations.

Effective workholding is paramount in CNC turning to ensure stability and precision during the machining process. Common techniques include chucks, collets, and fixtures, each serving specific purposes. Selecting the appropriate workholding method is vital to achieving the desired accuracy in turned parts.

Programming is a key aspect of CNC turning, involving the creation of instructions for the machine to follow. G-code, a language understood by CNC machines, is commonly used for programming turning operations. Machinists need a solid grasp of programming basics to generate accurate toolpaths and achieve the desired turned shapes.

Feeds and speeds are crucial parameters in CNC turning, impacting the efficiency and quality of the machining process. Properly optimizing these factors is essential for achieving precise material removal without compromising the integrity of the turned components.

Precision manufacturing entails CNC machining and turning, each with unique strengths. CNC machining, a comprehensive term, involves milling, drilling, and turning. Milling crafts intricate shapes, drilling creates precise holes, and turning specializes in rotational components. In turning, the workpiece rotates as cutting tools sculpt precise cylindrical parts. CNC machining offers versatility across part geometries, while turning excels in precision for cylindrical components. The choice between these methods hinges on specific manufacturing needs, showcasing the nuanced selection in precision engineering.