Faculty of Mechanical Engineering, Transport and Aeronautics
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Faculty of Mechanical Engineering, Transport and Aeronautics

Working with Industry

Working with Industry

Institute of Aeronautics:

  • Design and manufactering of aircraft
  • Design of multimodal and intermodal transport systems
  • Aerodynamic studies
  • Diagnosis of aircraft and aircraft engines
  • Aircraft control systems. Algorithms and optimization
  • Durability and fatigue safety of aircraft
  • Flight safety
  • Synthesis of nanostructured ions (Synthesis of plasma coatings for the protection and repair of components of aircraft propulsion equipment)

Institute of Transport

  • Department of Automotive Engineering:
    • Road safety
    • Environmental aspects of road transport
    • Use of renewable energy sources in road transport
    • Combustion process studies on piston engines
    • High-efficeny pneumatic systems
    • Transportation of passengers and cargo
    • Changes in the technical condition of vehicles
    • Mechanical transmission diagnostic equipment and algorithms
    • Mechanical transmission repair algorithms
    • Micromobility dynamics
    • Road safety of micro-mobility vehicles
    • Development of virtual instruments and controllers in NI LabVIEW
  • Department of Railway Engineering:
    • Diesel locomotive vibration diagnostics
    • Safety of technical means of train movement control systems
    • Rolling stock repair technology
    • Non-destructive control computer systems in railway transport
    • Optical networks and systems for transport fibres
  • Metalography Laboratory:

Institute of Biomedicine Engineering and Nanotechnologies:

  • Electron emission physics and biological tissue and material electron spectroscopy
  • Nanodosimetry
  • Nanotechnologies in medicine
  • Application of the non-contact positioning method in medicine
  • Atomic force microscopy
  • Biochip technologies

Institute of Mechanics and Mechanical Engineering:

  • Department of Industrial Design:
    • Ergonomics, aesthetics and functionality of mechanisms and hardware
    • Characteristics of environmentally friendly materials
  • Department of Theoretical Mechanics and Strength of Materials:
    • Analysis, optimisation and synthesis of vibration-shock systems
    • Studies in the wind tunnel
    • Muscle biomechanics
    • Dynamics, friction, oscillations and impacts
    • Parallel optimisation of numerically labour-intensive patterns of mechanical systems
    • Modeling and optimisation of machine dynamics, computerised design and calculation
    • Study of mechanical load of polymeric composites
    • Optimization of internal architecture of polymeric composites
    • Strength and fatigue of wood composites at cyclical loads
    • Construction composites and their resistance to mechanical and thermal loads
    • High tension reinforcement composites and their mechanical properties
    • Optimal and energy-efficient construction structures
    • Use of secondary materials in modern composites and constructions
  • Department of Thermal Power Systems:
    • Development of economic and cleaner energy technologies
    • Improving burning processes for fuels
    • Heat exchange studies in convection, boiling and condensation processes
    • Energy economy and energy forecasting
    • Centralized heating complex solutions, cogeneration, trigeneration
  • Department of Mechanical Engineering and Mechatronics:
    • Statistical mechanics of solid body contact surfaces
    • Assembly automation
    • Studies on metal-cutting theories and cutting tools manufacturing
    • Processing technology and quality assurance
    • Analysis of materials and study of their structure
    • Studies of innovative welding processes, welding application and material behaviour
  • Tribology Laboratory:
  • Metrology Laboratory:
  • Biotextile Research Laboratory:
    • Research on biotextile and development of new textile technologies
  • Mechanics Expertise Center:
    • Independent and objective theoretical, practical and technical expert-assessments in the field of mechanics
    • Mathematically based conclusions on mechanical collisions, damage and destruction of material objects
    • Analysis of the potential for disasters and chaos in technology, human society and the environment
  • Machine and Mechanism Dynamics Research Laboratory:
    • Modeling of machine dynamics and strength, computerised design and calculation
    • Development of experimental planning and metamodelling techniques
    • Development and application of multidisciplinary optimisation techniques in mechanical engineering
    • Multi-critical robust optimization of components of composite materials
    • Optimising the shape of mechanical objects in the presence of uncertainties
  • Multidisciplinary Sports Technologies Laboratory:
    • Research into technological problems and mechanics of different types of sport and development of innovative solutions
  • Laboratory of Experimental Mechanics of Materials: