Help CenterCNC Machining: Surface roughness Ra ≤0.8μm (precision molds: Ra ≤0.2μm); tool wear compensation frequency ≤500 pieces/tool.
Help CenterIn CNC (Computer Numerical Control) Machining, non-standard functional requirements refer to those that do not meet conventional standards or general specifications. These requirements may stem from customer-specific needs, unique part designs, or innovative processing techniques
Help CenterIn CNC (Computer Numerical Control) Machining, quality documentation primarily encompasses various aspects related to quality control throughout the Machining process, ensuring the quality and stability of the final product. Specifically, quality documentation may involve the following directions of content
Help CenterIn CNC Machining, the inspection standards of the quality department are crucial to ensure that parts meet design requirements and customer specifications. Below are the commonly used inspection standards and methods by the quality department in CNC Machining
Help CenterIn CNC Machining, part cleaning and finishing are critical steps to ensure part quality and performance. Below are the standards and guidelines for part cleaning and general finishing
Help CenterIn CNC Machining, surface treatment standards are established to ensure that parts meet specific functional, aesthetic, or durability requirements. Below are some common surface treatment standards and their applications
VideosCNC machines are increasingly widely used in modern industry. In this context, how to ensure product quality and avoid problems? CMM (Numerical Control Machine Measurement System) has become an indispensable part of modern manufacturing
Guide6061-T2 aluminum offers excellent properties for CNC Machining but faces challenges like precise control and heat sensitivity. To optimize its use, adequate support, preprocessing, and careful technique selection are recommended. Understanding its limitations ensures better processing outcomes.
GuideCNC Machining has revolutionized manufacturing, enabling the creation of complex, high-precision parts with remarkable efficiency. However, to fully leverage the capabilities of CNC Machining and ensure cost-effective production, it's crucial to design parts with the process in mind. This guide will walk you through the key considerations and best practices for designing parts optimized for CNC Machining.
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