01 Selecting the angles of a turning tool The structure of a turning tool’s cutting edge involves several key components that collectively influence its geometric characteristics and cutting performance. These components include the rake face, the main rear face, the secondary rear face, as well as the primary cutting edge, the secondary cutting edge and the tool tip.

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The compact and aesthetically pleasing design optimises space utilisation and facilitates maintenance and repairs, ensuring maximum customer satisfaction; although the unit price of mill-turn machining centres is relatively high, the shortening of the manufacturing process chain and the reduction in the number of machines required for production

When the original accuracy of the machine tool, cutting tool, fixture and workpiece blank etc. all meet the process requirements without considering the dynamic factors, the effect of adjustment error plays a decisive role in machining accuracy. Improve the geometric accuracy of the machine tool used for parts machining

Against this backdrop, multi-process machining technology has emerged. Generally speaking, multi-process machining is a collective term for machining technologies that enable different operations or different machining methods to be carried out on a single machine tool. Multi-process machining technology mainly takes two distinct forms

01 Error and accuracy of the “twin faces” of the smaller the machining error, the higher the degree of compliance, the higher the machining accuracy. Both actually describe the same thing - just a different perspective. In other words, the size of the error directly determines whether the part can meet the standard!

When drawing up design plans, all manner of tolerances are specified on the drawings, yet in practice, the parts simply cannot be produced to those specifications. Is it that the design precision is too high, or that manufacturing standards are too low? How can we reconcile the drawings with the actual machining process? After reading the following, you might just get the hang of it.

Machining error is the degree of deviation between the actual geometric parameters (geometric dimensions, geometric shape and mutual position) and the ideal geometric parameters of a machined part.

Furthermore, the widespread use of monolithic thin-walled structures and difficult-to-machine materials means that manufacturing processes are frequently hampered by bottlenecks such as long lead times, high material removal rates, low machining efficiency and significant machining deformation. In order to improve the machining efficiency and accuracy of complex aerospace components

The emergence of mill-turn machining equipment provides an effective solution for improving the machining accuracy and efficiency of aerospace parts. With the continuous development of CNC technology, computer technology, machine tool technology and machining process technology