Achieving nanoscale finish on complex curved surfaces, an innovative technology called "mirror jet polisher" has garnered widespread attention in the precision manufacturing industry. By jetting tiny abrasives at high speed, this technology enables ultra-precision polishing at the nanoscale (or even sub-nanometer level) on workpieces of various complex shapes. This revolutionary solution is being applied to applications requiring extremely high surface finish, such as optical instruments, molds, and precision tools.

The innovation of the technology is reflected in the following aspects: 

(1) Non-contact polishing: It avoids direct contact between the tool and the workpiece during traditional mechanical polishing, thus preventing heat sensitivity, scratches or surface damage.

 (2) Adaptability to complex structures: The jet can easily enter complex curved surfaces, deep holes, micro-holes and special-shaped structures that are difficult to overcome with traditional methods, achieving consistent polishing and truly realizing "uniform and no dead angle" processing.

 (3) Controllability: By precisely controlling the jet pressure, angle and abrasive parameters, the polishing effect can be precisely controlled, reducing the surface roughness by 1 to 2 levels, and even achieving nano-level finish.