QUALITY OF FORMING PARTS IN THE INTEGRATION OF HYBRID TECHNOLOGIES OF TRANSPORT ENGINEERING

Background. On the basis of system analysis, an approach is proposed for shaping parts of a complex configuration. It is shown that the complex application of traditional, additive and nanotechnologies for forming parts significantly improves the quality of surface formation. The relevance of the development of smart production systems is substantiated. Materials and methods. It is shown that the development of digital flexible production systems inevitably faces the introduction of additive technologies, robotic complexes, and partially traditional shaping tools, which opens up prospects for the synthesis of intelligent control systems for complex production systems. Results. The use of powder and composite materials, including nanomaterials, control of parameters and quality indicators must be ensured using intelligent control systems, which are based on modern non-contact, high-speed high-precision laser and fiber-optic sensors. Conclusions. The development of intelligent product quality management systems is impossible without the improvement of intelligent sensor systems that can facilitate data collection. Such sensors must have advanced interfaces and standardized data transmission formats.