Technological innovation is the core driving force for the development of the bearing industry.
At present, industry research and development focuses on the application of high-performance materials, advanced manufacturing processes and intelligent technology integration.
In terms of materials, the research and development of new ceramic materials and high-performance alloy steels aims to improve the wear resistance, high temperature resistance and corrosion resistance of bearings to meet the needs of extreme working conditions. For example, in aero-engine bearings, the use of ceramic ball bearings can significantly improve their speed and reliability, reduce weight and friction loss.
In the manufacturing process, precision machining and ultra-finishing technologies continue to iterate, such as the optimization of roller convexity grinding technology, which effectively improves the contact stress distribution of bearings, and improves the bearing capacity and service life.
At the same time, intelligent technology is increasingly widely used in the field of bearings. Intelligent bearings can monitor their own operating status in real time, including temperature, vibration, speed and other parameters, and feed back the information to the control system through built-in sensors and data transmission modules to achieve predictive maintenance of equipment, reduce downtime and improve production efficiency. This is particularly critical in today's rapid development of industrial Internet and intelligent manufacturing, providing technical support for the deep integration of the bearing industry with upstream and downstream industries.
