134 Aerospace Engineering
The objects of activity of the graduates of this specialty are phenomena and problems related to the stages of the life cycle of aviation and rocket and space technology.
The purpose of training is to train specialists capable of solving complex specialized and practical tasks related to the development, production and certification of aviation and rocket-space technology, its engines and power plants, structures and systems characterized by the complexity and uncertainty of conditions and capable to solve complex tasks and problems in professional activities related to the development, production and (or) certification of aviation and rocket-space technology, its engines and power plants, structures and systems or in the process of training, which are related to conducting research and/or implementation of innovations and are characterized by uncertainty of conditions and requirements.
Preparation is carried out at the departments:
- Department of Aerohydrodynamics (Department 101);
- Department of Aircraft Strength (Department 102);
- Department of Aircraft and Helicopter Design (Department 103);
- Department of Aircraft Production Technology (Department 104)
- Department of design information technologies (department 105)
- Department of Aircraft Engine Design (Department 203);
- Department of aircraft engine production technology (department 204);
- Department of structures and design of rocket technology (department 401);
- Department of Space Technology and Non-Traditional Energy Sources (Department 402);
- Department of Composite Structures and Aviation Materials Science (Department 403)
Training is conducted according to the following educational programs:
Educational program | Educational degree (curriculum templates) | Form of study | Term of study | Cost of study |
Aircraft Aerodynamics | Bachelor's degree based on complete general secondary education | Full-time | 3 years and 10 months | - |
Aircraft Testing and Certification | ||||
Aircraft Engines and Power Plants | ||||
Aircraft Engine and Power Plant Production Technologies | ||||
Unmanned Aerial Vehicles | ||||
Rocket Engines and Power Plants | ||||
Satellites, Engines and Power Plants | ||||
Rocket-Space Engineering | ||||
Aircraft Designing | Bachelor's degree based on complete general secondary education | Link | ||
Design, Manufacture and Certification of Aircraft | ||||
Technologies of Aircraft Manufacturing and Repair | ||||
Intelligent Unmanned Vehicles | ||||
Design, Operational Diagnostics, Maintenance and Repair of Aircraft Engines and Power Plants | ||||
Rocket and Space Complexes | ||||
Design and Manufacturing of Composite Structures | ||||
Aircraft Aerodynamics | Master's degree, educational and professional program | Full-time | 1 year and 4 months | - |
Aircraft Testing and Certification | ||||
Aircraft Engines and Power Plants | ||||
Aircraft Engine and Power Plant Production Technologies | ||||
Rocket Engines and Power Plants | ||||
Rocket and Space Complexes | ||||
Satellites, Engines and Power Plants | ||||
Design and Manufacturing of Composite Structures | ||||
Aircraft Designing | Full-time and part-time | |||
Technologies of Aircraft Manufacturing and Repair | Master's degree, educational and professional program | Link | ||
Aircraft Aerodynamics | Master's degree, educational and scientific program | Full-time | 1 year and 9 months | - |
Aircraft Engines and Power Plants | ||||
Rocket Engines and Power Plants | ||||
Rocket and Space Complexes | ||||
Design and Manufacturing of Composite Structures | ||||
Satellites, Engines and Power Plants | Master's degree, educational and scientific program | Link | ||
Technologies of Aircraft Manufacturing and Repair | ||||
Aircraft Engine and Power Plant Production Technologies | ||||
Aircraft Designing | ||||
Aerospace Engineering | PhD | Full-time and part-time | 4 years |