Machine Tool Requirements for Sub-Micron CNC Turned Parts Achieving sub-micron surface finishes (Ra ≤0.1μm) in CNC turned parts demands specialized machine tools engineered for extreme stability and precision. Our ultra-precision turning centers feature air-bearing spindles with rotational accuracy below 0.05 microns, eliminating mechanical contact that could introduce vibration or runout. These machines incorporate hydrostatic guideways that float axes on pressurizedMore

Precision Equipment for Micro-Scale CNC Turned Parts Achieving sub-0.5mm tolerances in miniature CNC turned parts requires specialized micro-turning equipment engineered for extreme precision. Our machines feature ultra-high-precision spindles with rotational accuracy below 0.1 microns, ensuring minimal runout that directly impacts dimensional stability in tiny components. These systems integrate air-bearing technology that eliminates mechanical friction, allowing spindle speeds up to 60,000More

Equipment Capabilities for Multi-Axis CNC Turned Parts Multi-axis CNC turning centers combine rotating spindles with additional linear and rotational axes, creating versatile platforms that transform complex part production for CNC turned parts. These advanced machines typically feature 4 to 9 axes, including live tooling stations, sub-spindles, and Y-axis capabilities that enable off-center machining operations. Our 5-axis turning centers integrate X,More

Material Selection for High-Pressure CNC Turned Parts Choosing the right materials is foundational to ensuring leak-free performance in high-pressure valve CNC turned parts, where components must withstand extreme pressures up to 10,000 psi or more. We primarily select high-strength alloys like 4140 and 4340 heat-treated steel for valve bodies and stems, as their tensile strength (1,000–1,300 MPa) and hardness (28–32More

Material Characteristics for CNC Turned Parts Understanding the unique properties of Inconel and titanium alloys is fundamental to successful machining of these exotic materials into high-quality CNC turned parts. Inconel alloys (primarily 718) exhibit exceptional heat resistance, retaining strength at temperatures up to 650°C, but their high nickel content makes them prone to work hardening—creating a hardened layer ahead ofMore

Types of Diamond Tooling for CNC Turned Parts Selecting the right diamond tooling is foundational to achieving mirror finishes on CNC turned parts, with different diamond types offering distinct advantages for specific applications. Polycrystalline diamond (PCD) tools, composed of micron-sized diamond grains bonded in a cobalt matrix, excel at machining non-ferrous metals like aluminum and copper alloys. Their high wearMore

The machining cycle of CNC turning parts is influenced by various factors, so the time span may have significant differences. Generally speaking, the following aspects are the key factors that determine the length of the processing cycle: The complexity of the parts: Simple shaft parts may only take a few hours to complete processing. For example, a regular cylindrical shaftMore

CNC turned parts play a crucial role in automotive manufacturing. The following are some common CNC turned parts used in automobiles: Axis parts: such as transmission shafts, half shafts, camshafts, etc. These parts require high-precision dimensions and good surface quality to ensure the power transmission of the car and the normal operation of the engine. The transmission shaft is responsibleMore

The machining processing cost of CNC Turned Parts involves multiple factors, which together determine the final processing cost. 1. Material cost Influencing factors: The prices of different materials vary greatly, and commonly used materials include aluminum, steel, stainless steel, brass, and plastic. The prices of precious metals and special alloys are higher. Example: The price of aluminum is relatively low,More

CNC Turned Parts Machining Service is a machining service based on computer numerical control (CNC) technology, specifically designed for manufacturing high-precision, customized turning parts. CNC Turned Parts Machining Service is a service that utilizes CNC lathes for turning operations based on customer needs. It covers the entire process from part design, programming, machining to post-processing to meet the customer’s demandMore

The machining accuracy of CNC Turned Parts can usually reach a very high level, but the specific accuracy depends on multiple factors. Generally speaking, the common precision of CNC turning can reach the following range: Dimensional accuracy: between a few micrometers to tens of micrometers. For example, for some common industrial applications, dimensional accuracy can be controlled within the rangeMore

The machining accuracy of CNC Turned Parts usually depends on multiple factors, including machine tool accuracy, programming technology, tool selection, machining parameter settings, etc. CNC machining can provide high-precision machining of parts. Generally, CNC machine tools can control the accuracy of machining outer diameters between 0.02 mm and 0.005 mm. Some high-precision CNC machining centers can achieve higher accuracy, forMore

CNC Turned Parts CNC lathe machining parts is an important product in the field of mechanical processing. Definition: CNC Turned Parts are parts processed using a CNC Lathe. A CNC lathe is a high-precision and high-efficiency machine tool that can perform precise turning of workpieces according to pre programmed instructions. Machining process: On a lathe, turning tools are mainly usedMore

CNC Turned Parts, Computer numerical control turning of parts is a product of mechanical processing, with the following characteristics: Definition and Manufacturing Process: CNC Turned Parts are parts machined using a computer numerical control (CNC) lathe. This processing method mainly utilizes turning tools to perform turning on rotating workpieces, in order to achieve predetermined shapes and sizes. On the lathe,More