| Customization: | Available |
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| After-sales Service: | 1 Year |
| Warranty: | 1 Year |
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| Items | CNC Milling | CNC Turning |
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| Definition | A machining method where a milling cutter is rotated and moves in multiple axes on the workpiece under computer control to remove materials and achieve the required shape and dimensions. | A machining method where the workpiece is rotated under computer control, and the cutting tool moves axially and radially to cut the rotating metal workpiece. |
| Applicable Metal Materials | A variety of metal materials such as aluminum alloys, stainless steels, copper alloys, titanium alloys, carbon steels, etc. | Aluminum alloys, stainless steels, copper alloys, various steel materials, titanium alloys, etc. |
| Characteristics of Processed Shapes | Can machine complex planes, curved surfaces, cavities, grooves, etc., such as complex cavities of molds and irregular surfaces of mechanical parts. | Mainly machines parts of revolution, such as shaft parts, disc parts, and sleeve parts. It can perform machining operations like external circles, internal holes, and threads. |
| Precision Advantages | Can achieve high dimensional accuracy and surface finish. Generally, the accuracy can reach ±0.01mm - ±0.05mm, suitable for machining parts with high precision requirements. | Good dimensional accuracy control, high machining accuracy for external and internal holes, and low surface roughness. Generally, the accuracy can reach ±0.01mm - ±0.02mm. |
| Production Efficiency | For mass production and machining of complex-shaped parts, automated machining can be realized through programming, improving production efficiency. However, for simple-shaped parts, the efficiency may be lower than that of CNC turning. | Suitable for mass production of parts of revolution. Multiple machining operations can be completed in one clamping, with high production efficiency, especially for the machining of shaft parts, which is fast. |
| Equipment Characteristics | CNC milling machines equipped with multi-axis linkage functions, with a rich variety of cutting tools, and can perform a variety of machining operations. The equipment structure is relatively complex. | CNC lathes have high-precision spindle and tool post systems, and can achieve automatic tool changing. Some lathes also have milling functions to achieve turning-milling compound machining. |
| Application Industries | Aerospace, automotive manufacturing, mold manufacturing, electronic equipment manufacturing, medical device manufacturing, etc. | Automotive manufacturing, machinery manufacturing, petrochemical industry, instrumentation, aerospace, etc. |
| Embodiment of Reliability | Stable machining process, high repeatability accuracy, capable of ensuring the consistency and quality stability of parts, and reducing the rejection rate. | Stable equipment operation, long tool life, strict requirements for the positioning and clamping of workpieces during the machining process to ensure machining accuracy and reliability. |
| Customization Ability | According to customers' design requirements, it can quickly program and adjust machining parameters to achieve the machining of customized parts and meet the needs of different customers. | Capable of flexibly adjusting the machining process and tool path according to different part drawings and technical requirements to achieve customized production. |
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Service Items
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Details
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Software Functions
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It has a powerful 3D modeling function, which can accurately create complex part models. It supports tool path simulation, detects collision and interference problems in the machining process in advance, and ensures the accuracy of machining. It has a rich material library, which is convenient for users to select appropriate metal materials for simulation machining according to their needs.
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Customization Service
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According to the specific machining needs of customers, customized development of the software is carried out. For example, exclusive function modules are added for special machining process requirements. The software interface is optimized to make its operation more in line with the internal work processes and habits of the customer's enterprise.
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Technical Support
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Provide 24-hour online technical support to promptly answer questions encountered by customers during software use. Regular software updates are carried out to fix loopholes and add new functions, ensuring that the software always remains at the leading level in the industry. Provide free software training for customers, including online live training and on-site field training, to help customers quickly master software usage skills.
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Part - related
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Details
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Machining Materials
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It covers a variety of metal materials. For example, aluminum alloy has the characteristics of light weight and high strength and is widely used in aerospace, automotive manufacturing and other fields; stainless steel has good corrosion resistance and is often used in medical devices, food processing equipment, etc.; carbon steel is affordable and has good comprehensive performance and is widely used in machinery manufacturing, construction and other industries.
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Machining Accuracy
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The dimensional accuracy can reach ±0.001mm, ensuring high - precision requirements for parts. In terms of shape accuracy, for complex curved surfaces and contours, a very high degree of fit can be achieved, meeting the strict standards for part shapes in precision instruments, optical equipment, etc.
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Surface Quality
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The surface roughness of the machined parts is low, reaching below Ra0.8μm. The surface is smooth and flat, and most high - end application scenarios can be met without additional surface treatment. For example, in electronic equipment parts, good surface quality helps to improve the performance and reliability of products.
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Application Fields
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It is widely used in the aerospace field to manufacture key components such as aircraft engine blades and landing gear parts; in the automotive manufacturing industry, it is used to produce high - precision parts such as engine blocks and transmission gears; in the medical device industry, it is used to machine products with extremely high requirements for accuracy and quality, such as artificial joints and surgical instruments.
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