15.03.01 Mechanical engineering

Students pursuing this area of studies receive instruction in modern machine parts manufacturing processes, including additive manufacturing processes in mechanical engineering, and learn to design CAD-models of parts of any complexity and to plan their manufacturing processes using modern digital technologies.
Level of education:
Bachelor’s degree
Form of training:
Full-time (daytime)
Place of training:
Moscow
Entrance examination:
— Mathematics (major)
— Russian language
— Information science and ICT
Profiles and specializations:
Digital and additive technologies in mechanical engineering
The program is focused on current machine manufacturing processes, including additive processes as the most dynamically developing and promising techniques associated with the building of digital three-dimensional models, production planning and maintenance involving 3D printers and other installations for additive manufacture.

Students will be able to research and design processes for additive manufacture of products out of polymers and metallic materials using computer (digital) 3D models of any complexity, to incorporate additive techniques in the manufacturing of engineering products, to design component manufacturing processes with the use of relevant software and computer-aided design systems, and to implement such processes by operating and programming modern CNC hardware.

Completion of the program enables the student to solve current issues of machine manufacture process support, to perform comparative analyses of different processes and to choose the optimal one; to conduct research in the field of additive and mechanical production processes in mechanical engineering, and to control product quality at all stages of the production process.
Professions that a graduate can choose
  • manufacturing engineer
  • researcher
  • research engineer
Specialized disciplines
  • Mechanical and additive manufacture technologies
  • Digital model development for additive manufacturing
  • 3D printing materials and technologies in mechanical engineering
  • Real-object digitization techniques and tools
  • Equipment and tooling of mechanical and additive manufacturing
  • Product control methods in additive manufacturing
  • Assurance of production process accuracy
  • Programming of numerically controlled equipment
  • Automated production process design systems
Graduating department:
Digital and Additive Technologies Department