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The CNC3 shaft processes aluminum sheets with a thickness of 2 mm The material of this product is aluminum 6061 aluminum alloy. We choose 3-axis CNC to milling the product. In order to prevent deformation, we reserve a margin of 0.2MM to release the stress after roughing and carry out precision machining.   The flatness of the product can reach plus or minus 0.01MM after completion

Power shaft CNC turning and milling compound machining aluminum grinding head This product is used for grinding tungsten rod parts. There are many small holes around the cylinder, the smallest hole is 1MM, the size of all holes is kept at plus or minus 0.01MM, and all sharp edges are chamfered. The whole product is very exquisite and high quality. After the completion of the production task, the product CNC is sandblasted and anodized, and finally the LOGO part is screened

CNC4 axis, CNC5 axis processing stainless steel metal parts. The material is stainless steel, we use ordinary 3-axis CNC machining the initial stage, and then use 5-axis machining precision parts. The precision of the product has reached 0.05MM, which is the product of American customers. We have produced a total of 200 sets  

The material of this product is aluminum 6061. CNC lathe is used to complete the whole processing, and CNC is used to process 4 round holes. Pay attention to no scratches and other defects during processing.   And then it's anodized bright red, not sandblasted.   Finally do laser engraving LOGO.

Large lathe for processing alloy steel products, used in the military aerospace field, deep hole drilling after drilling lathe processing, then heat treatment HRC45 degrees, and finally with five axis CNC machining head position. The accuracy can reach 0.05MM plus or minus

CNC machining titanium alloy metal parts High precision titanium alloy precision parts are used in lithography machines, and the precision can reach 0.003MM

Automatic feeding, automatic lathe processing of ultra-low price brass parts, parts tolerance plus or minus 0.01MM, smooth surface, high quality products

CNC machining aluminum synchronous wheel, metal synchronous wheel, do not need hobbing, with a new process, directly with CNC processing to complete the production task, one molding, more beautiful, harder and cheaper.

CNC machining of shaped complex cast steel parts, precision of 0.05MM flatness, length of 1000MM length. CNC casting steel parts processing with high precision and complex structure

5-axis CNC machining has become essential in aerospace manufacturing due to its precision and efficiency in producing complex parts. Unlike traditional 3-axis machines, 5-axis CNC machining can work on five different sides of a part in a single setup, allowing for intricate geometries and tighter tolerances—essential for aerospace components. In the aerospace industry, many parts have curved surfaces and tight dimensions that must withstand extreme conditions. 5-axis machining allows for these features to be produced with high accuracy and consistency, reducing the need for multiple setups and tooling. This not only speeds up production but also minimizes errors, ensuring that each component meets strict quality standards. Materials like titanium and aluminum are commonly used for aerospace parts, and 5-axis CNC machines can efficiently handle these tough materials while maintaining the required precision. Overall, 5-axis CNC machining enhances the capability of producing lightweight, durable, and reliable parts, making it a game-changer in aerospace manufacturing.

**Machining Aluminum Cylindrical Grooves with Turn-Mill Technology**   Turn-mill technology is increasingly used in the precision machining of aluminum cylindrical parts, especially when grooves or notches are required. This process combines turning and milling operations on a single machine, allowing manufacturers to machine complex geometries efficiently and with high accuracy.   When machining an aluminum cylinder with a groove or notch, the process typically begins with turning, which helps achieve the basic cylindrical shape and desired dimensions. Then, milling is applied to create the required groove or notch on the cylindrical surface. Using both operations in a single setup minimizes setup time, reduces alignment errors, and improves overall machining efficiency.   One advantage of turn-mill technology is its ability to handle intricate features with reduced material deformation—a significant benefit when working with softer materials like aluminum. Additionally, turn-mill machines often come with advanced control systems, allowing for complex and precise pathing, which is essential for achieving a high-quality surface finish on grooves or notches.    In summary, the turn-mill approach offers a streamlined solution for machining aluminum cylindrical components with grooves or notches, enhancing both productivity and product quality.

**CNC Machining of Gears: Precision and Efficiency**   CNC (Computer Numerical Control) machining plays a crucial role in the manufacturing of gears, which are key components in many mechanical systems such as automotive, aerospace, and industrial machinery. The high precision and versatility of CNC machining make it ideal for producing gears of various sizes and types, including spur gears, helical gears, and bevel gears. Here are the main advantages and considerations of CNC machining for gear production:   1. **Precision and Accuracy**      CNC machines operate with extremely high precision, ensuring that gear dimensions, tooth profiles, and tolerances are consistent and accurate. This level of accuracy is essential for gears to function smoothly and efficiently in their applications, reducing wear and noise.   2. **Complex Geometry**      CNC machining can handle complex gear designs, including helical or double-helical gears, which require precise angles and alignment. With multi-axis CNC machines, intricate cuts and detailed features can be achieved with minimal human intervention.   3. **Material Versatility**      CNC machining supports a wide range of materials, from steel and aluminum to specialized alloys and plastics. This flexibility allows manufacturers to choose the best material for specific applications based on strength, wear resistance, and operating conditions.   4. **Efficiency in Prototyping and Production**      CNC machining is highly efficient for both prototyping and mass production of gears. For prototyping, it allows rapid production of precise gear models that can be tested and refined. In mass production, CNC machines can run continuously, maintaining consistency and high throughput.   5. **Tooling and Maintenance**      Proper tooling is essential for the efficient machining of gears, especially when working with harder materials. Specialized cutting tools such as gear hobs, milling cutters, and grinding wheels are used to shape the gear teeth. Regular maintenance of the CNC machine and tooling ensures continued precision and prevents defects.   In summary, CNC machining offers a precise, efficient, and flexible method for producing high-quality gears. By using advanced CNC technology, manufacturers can produce gears with complex designs and tight tolerances, meeting the demands of modern mechanical systems.