Worldsoaring uses five-axis linkage CNC technology to achieve a processing tolerance of ±0.01mm, meeting the extreme requirements of shape and position tolerance for key components such as aircraft skins, rocket fuel tanks, and engine turbine disks16. Its multi-axis collaborative technology can form deep cavities, thin walls (<0.5mm) and special-shaped curved surface structures in one go, avoiding stress concentration caused by split assembly, and significantly improving the stability of structural parts in supersonic or space environments14.

Equipped with a gantry-type carbon fiber five-axis machine tool (maximum span 15 meters), it is specially designed for ultra-large single components of spacecraft (such as satellite brackets and wing frames). Carbon fiber moving parts are 40% lighter than traditional metals, and the thermal deformation coefficient is reduced by 70%, ensuring micron-level precision under ultra-long travel, and solving the problem of precision attenuation caused by split welding12. Typical case: Providing main equipment for C919 wing processing, accounting for more than 50% of the domestic large aircraft structural parts processing market29.

Focus on process breakthroughs in aerospace titanium alloys (Ti6Al4V), high-temperature alloys (Inconel 718) and carbon fiber composite materials. Through oil-free cutting + ultrasonic assisted processing technology, the tool life of titanium alloys is increased by 2.25 times, and the surface roughness is optimized to Ra≤0.4μm (better than the industry standard Ra1.6μm), meeting the fatigue resistance requirements of high heat load components such as engine combustion chambers468.

For high temperature/high pressure/vibration environment of spacecraft: The intelligent compensation system for thermal deformation corrects processing errors in real time (temperature control accuracy ±0.5℃)4; The nitriding strengthening process improves the wear resistance of the landing gear journal, and the service life is extended to more than 20,000 hours38; In line with NASA/ESA aerospace-grade clean standards, the implant processing residue is ≤0.1mg/cm², eliminating the risk of space environmental pollutants68.

Integrated digital twin and IoT dynamic monitoring: The programming time of complex parts is compressed from 2 days to 30 minutes through NX CAM software4; The MES system achieves 100% production process traceability, supports 48-hour emergency spare parts delivery (such as rocket valve replacement parts), and reduces downtime by 70%58.

The production line has passed the AS9100D aerospace quality management system and NADCAP special process certification, and the service covers: Domestic large aircraft C919: supply engine blades, landing gear boring and milling composite parts 9; Missile equipment: Provide five-axis machine tools for China Aerospace Science and Industry Corporation for missile engine hot forming production lines 3; Satellite structure: Cumulative delivery of multiple aerospace parts, with a yield rate of 99.98% and zero recalls