Provide equipment designers with a 'sword' for the realization of 'high-performance' structural design.

(1) Large-scale complex hollow/hollow-out titanium alloy structure laser additive manufacturing for an aircraft

Realize the topology optimization concept of the structural designer, and reduce the weight by more than 60% through multiple rounds of optimization (the weight of a single piece is nearly 40kg)

At the critical moment of aircraft development, as the only technical solution to solve one of the two major manufacturing bottleneck problems in assembly and development, it has been successfully mass-produced for engineering applications for nearly 10 years.

(2) Laser additive manufacturing of large parts of titanium alloy monolithic frame

The original combined structure of 10 large forgings + 180 fasteners is manufactured by laser additive into 1 large component, which improves the structural integrity and reliability, greatly reduces the weight, and extends the service life.

The whole set of engineering verification has been completed and the installation engineering application has been completed.

(3) Large-scale key main bearing titanium alloy structure of a large launch vehicle

Using laser additive manufacturing technology to achieve the optimization of titanium alloy to replace high-strength steel materials and structure, a single arrow total weight loss of 300kg, is one of the important technical ways to solve the bottleneck problem of insufficient carrying capacity. Successfully loaded arrows.