Products News
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Precision Machining Technology for Semiconductor Equipment Components
① Component Forward Design and Tolerance Allocation Based on Vacuum and Cleanliness Requirements 1. Ultra-High Vacuum Environment-Driven Precise 3D Modeling ● Based on the ultra-high vacuum requirements (10⁻⁹ Torr level) of semiconductor etching and deposition equipment for vacuum chambers, e...Read more -
Precision Machining Technology for Core Components of Optical Instruments
①Component Forward Design and Tolerance Allocation Based on Optical Imaging Principles 1. Optical Performance-Driven Precise 3D Modeling ● Based on the strict requirements of optical systems for coaxiality, runout, and mating clearance of mechanical components such as lens barrels, lens holde...Read more -
Precision Machining Technology for Aerospace Superalloys
①Precision Machining Technology for Aerospace Superalloys 1. Component Forward Design and Process Collaboration Based on Aero-Engine Operating Conditions ● Based on the service requirements of aero-engine turbine blades and casings under high temperature, high pressure, and high rotational sp...Read more -
Precision Machining Technology for New Energy Vehicle Electric Drive System Core Components
①Product Forward Design and Process Optimization Based on Functional Requirements 1. Functional Requirement-Based Precise 3D Modeling ● Based on electric drive system requirements for power density, thermal dissipation performance, and assembly accuracy, professional CAD/CAM software is used to...Read more -
Precision Machining Technology for Minimally Invasive Surgical Instruments
①Ergonomic-Based Forward Design and Manufacturability Analysis of Surgical Instruments 1. Clinical Scenario-Based Precise 3D Modeling ● Based on the special requirements of minimally invasive surgery for instrument dimensions, operational feel, and sterilization resistance, professional CA...Read more -
To make high-precision medical equipment products using CNC machining processes
① Design Stage 1. Precise 3D modeling: - With the help of professional CAD/CAM software, create a highly accurate 3D model based on the functional requirements of the medical equipment and ergonomic principles. Ensure that every detail of the mod...Read more -
To produce good optoelectronic products using CNC machining processes
1. Precise design: In the early stage of product development, conduct detailed and accurate design. Fully consider the optical performance requirements, structural stability, and the mating accuracy with other components of the optoelectronic products. Use advanced CAD s...Read more -
To produce good communication products using CNC machining processes
1. Careful design: At the product design stage, fully consider the functional requirements, dimensional accuracy, structural strength, and electromagnetic compatibility of communication products. Use professional CAD software for detailed and accurate three-dimensional d...Read more
