TECHNOLOGICAL CAPABILITIES OF CONCENTRATED ENERGY FLOWS FOR FORMING MACHINE PARTS 

Perevertov Valeriy Petrovich, candidate of technical sciences, professor, sub-department of ground transportation and technology tools, Samara State University of Railway Transport (2V Svobody street, Samara, Russia), E-mail: vperevertov@yandex.ru
Andronchev Ivan Constantinovich, doctor of technical sciences, professor, sub-department of electric transport, Rector Samara State University of Railway Transport (2V Svobody street, Samara, Russia), E-mail: rektoratSamgups@mail.ru
Ivankova Marina Vladimirovna, postgraduate student, Penza State University (40 Krasnaya street, Penza, Russia), E-mail: arina.iv94@yandex.ru 

658.562

10.21685/2307-4205-2020-1-9 

Background. The shaping of parts (products) from various materials using traditional and additive (3D) technologies in the conditions of “smart” production systems (UPS) is a complex dynamic system that needs to be managed with high quality.
Materials and methods. Flexibility and economy of developing new high-quality products by creating UPS based on GPS with digital modeling using a synthesis of traditional and additive technologies.
Results. It is recommended to use concentrated energy flows based on: an electron beam and laser radiation as an energy source for the technologies of “smart” production systems (UPS); plasma and ionic exposure with adaptive (intelligent) control systems with monitoring and diagnostics of technological process parameters.
Conclusions. Monitoring and diagnostics of product quality indicators using laser, infrared, fiber-optic sensors and devices, etc., an industrial computed tomography system will ensure the high quality, safety and environmental friendliness of the “smart” production system. 

additive technologies, energy, laser, plasma, quality, reliability, material, sensors, control, diagnostics, system, equipment