Study Programs (M.Sc.)

Graduate Studies

Graduate studies either take the full-time form, or the external form. Students should acquire theoretical and practical knowledge based on the actual state of science and technology. Their abilities should develop as well as their capability to creatively apply them in their future jobs, or during further university study in a particular postgraduate study program. The standard length of the study is 2 years.
The study is concluded by the state examination and defence of the master's degree thesis. The state examination verifies that the students have acquired knowledge and skills specified by the study program and that they are prepared to use these in practice. The state examination consists of two parts – defence of the master's degree thesis; and the oral exam in subjects specified by the study program. The students are examined by the state examination board.
Graduates receive the academic title of “Engineer” (M.Sc.).
The faculty provides the following graduate study programs:

  • Applied Mechanics
  • Combustion Engines, Aircraft Engines
  • Transport Means Maintenance
  • Mechanical Engineering Technologies
  • Rail Vehicles
  • Automated Production Systems
  • Machines and Equipment Design
  • Material Engineering
  • Environment Technology
  • Industrial Engineering and Management

Graduate Study Programs

Applied Mechanics

The graduate of the study program Applied Mechanics creatively utilizes the methods of computation, simulation and verification of model solutions in the design of mechanical systems. The stress is being put on the ability to develop, design and practically utilize the engineering approaches to the solution of technical problems concerning the sphere of linear and non-linear response of structures. The graduate is able to carry out the static, kinematic, and dynamical analysis of mechanisms and structures, to assess the lifespan and reliability of examined objects. The graduate is able to analyse heat stress, solve the technical problems concerning convection, thermodynamics, transfer of heat and matter. The graduate is able to utilize modern mechanics computation methods such as the finite element method, boundary element method, meshless methods and to apply these to solution of engineering problems.
Graduates are able to use software engineering tools such as: CAD systems: AutoCAD, Pro/Engineer, Catia, Ideas; FEM software: ADINA, ANSYS, MSC MARC and other. They possess appropriate knowledge concerning information technologies and they know the basics of programming in C, FORTRAN and MATLAB in MS Windows and Linux operating systems. The graduates communicate in at least two foreign languages, they understand the economical and legal aspects of the sphere they specialize in, they are able to do complex assessments and recognize the substantial issues in design and diagnostics of a mechanical system. The graduates are especially well prepared for jobs in the sphere of design, assessment and innovation of structures in machines, technological devices and buildings.

Combustion Engines, Aircraft Engines

Graduates of the study program are able to carry out creative engineering tasks like searching for and sorting of information and its utilization in design of new conceptual and engineering solutions, to carry out examinations and measurements and to evaluate the measured data. They are able to use the corresponding computer techniques and to solve a given problem ergonomically and in context of the environmental factors.
Graduates are prepared to work in design, engineering, operation, production, maintenance and business enterprises, dealing in combustion engines for vehicles, aero-engines and stationary engines; in combustion engine test laboratories and similar. They are as well able to work in service factories and plants, using mobile energy sources (cars, scoop loaders, building machines, rail vehicles) or use stationary combustion engines as energy sources (cogeneration units, alternative energy sources and similar).

Transport Means Maintenance

Graduates are able to work as Maintenance Engineers. They know the methodology and procedures concerning introduction and operation of vehicles (and technical systems in general). They possess knowledge of their engineering and operation, the methodology of analysis and assessment of reliability, methodology and sophisticated procedures required to design complex maintenance systems, methodology and procedures necessary to design and introduce Computer Maintenance Management Systems (CMMS, ERP).
Graduates have knowledge and practical experience concerning control of operation and upkeep involving complex maintenance of machines and devices in every sphere of mechanical engineering. Their primary role is to participate in design of complex maintenance systems, in control, organisation and technical preparation of maintenance of vehicles, in control, organisation and technical preparation of servicing concerning operation of vehicles, in the sphere of control of services and business related to machines and devices, as well as individual entrepreneurs in the sphere of maintenance, servicing and sale of machines.

Mechanical Engineering Technologies

Graduates possess theoretical and experimental knowledge, practical experience concerning technological processes related to casting, moulding, welding, machining and assembly, thermal treatment, physical metallurgy and limit states of construction materials. They gain understanding in the subject of design of production processes and systems, design of technological procedures. They learn how to secure metrological necessities for machine production, how to manage quality control of products. They learn the basics of engineering and functional replaceability of production machines and devices.
Graduates gain knowledge concerning the mechanization and automation of production systems. All these tasks are carried out using the CA-X technologies, mathematical modelling methods and simulation methods.
The graduate is prepared to work in organisations and plants from the sphere of mechanical engineering, in the team of main technologist, in design and engineering of machines and tools, in management, marketing and control, technological development and research, in preparation of production etc.

Rail Vehicles

Graduates are able to analyse, design, engineer, operate and maintain large-scale technical systems of vehicles, especially in the sphere of rail vehicles. The study focuses so that the graduates gain deeper knowledge in the basic theoretical disciplines of mechanical engineering (especially in applied mathematics, mechanics, materials) as well as in theory, engineering, design of rail vehicles, their testing, operation and maintenance.
Graduates are able to participate in projects, involving the identification of the problem, analysis, design and implementation of extensive solutions together with testing and adequate documentation. They perceive the individual aspects of quality and use the modern CA-X technologies.
Graduates are prepared to work as researchers, designers and engineers of vehicles, especially of rail vehicles. They are also trained for operation, diagnostics, maintenance and reparation of such vehicles. The graduates are especially well trained for research, development and engineering centres of rail vehicle and rail machine manufacturers, for enterprises oriented on their maintenance, reconstruction, and for technical and management departments of organisation providing railway transport.

Automated Production Systems

The study program Automated Production Systems focuses on the sphere of automation and computer aid in production technologies, and especially on flexible production systems in mechanical engineering, computer aid in pre-production stages, design in automated machine production, on the sphere of digitally controlled production machines, robot technology, application of microelectronics and computation technology in production technologies, creation of control systems for automated machinery.
Graduates are able to systematically and complexly solve material, technological and organisational problems concerning production technologies, utilizing automation means and approaches, as well as computer aid in pre-production, production and post-production stages of part realization using mathematical modelling, simulation and optimization. Their technical capabilities are integrated with understanding of economics.

Machines and Equipment Design

The graduate of the program gains deeper knowledge of applied scientific disciplines oriented on design and engineering of machines and devices. The graduate studies focus on devices and technologies, nowadays used in design and engineering of machine and device prototypes. The students are given the opportunity to fine-tune their specialization by selecting from a list of elective subjects. Knowledge of engineering, engineering methodology, construction materials, innovations, computation and simulation methods or structural and dynamic analysis and optimization of structural parts and nodal points, based especially on the finite element method are nowadays vital to being successful as engineers and designers of machines and machinery on the European labour market.
The knowledge and capabilities of the graduates include being able to use modern methods of computer modelling, computer design and engineering as well as to utilize experimental methods. They are as well able to efficiently use systems for 2D and 3D engineering and modelling such as AutoCAD, Pro/ENGINEER, Catia and systems for analysis, simulation and optimization, focusing primarily on systems ANSYS and ADAMS, or Opti Struct. They are trained to be able to practically apply technologies concerning Rapid Prototyping and Reverse Engineering for the sphere of development and innovation of machines and devices. The graduates are especially well prepared for work in the sphere of research and development, in the sphere of design and engineering of devices, utilizing sophisticated methods and procedures.

Material Engineering

Graduates of the Material Engineering program are thoroughly prepared for a career in the sphere f research, development and production of technical materials, their technological processing into semi-finished products and products, as well as in the sphere of quality control and operation diagnostics. The graduates possess detailed knowledge of various interconnections among chemical composition, structure and technically important material properties. The wide spectrum and high level of knowledge and skills that graduates gain in the program provide for fast adaptability of the graduates at their workplaces and for their success in a wide sphere of technical disciplines.
Graduates are able to analyse and design extensive technological solutions, which require deep knowledge of material properties, the ability to manage several teams of specialists, the ability to independently lead large-scale projects and to assume responsibility for complex solutions.

Environment Technology

Graduates gain knowledge concerning engineering, design and testing of technical devices for regulation of the state of environment. These include, in particular, devices for regulation of microclimate and air cleanliness of the interior environment, especially ventilation, air conditioning and heating as well as systems for distribution of thermal energy and gas.
Graduates gain theoretically-methodological professional basics and practical experience required to solve a wide range of problems concerning design and operation of heating, ventilation and gas distribution systems, operation and engineering of heat sources, pumping devices and compressors, cogeneration units and other devices used in heating, ventilation and gas distribution systems. They are also able to engineer machines and devices for utilization of alternative energy sources (solar energy, wind power, geothermal energy, energy of biomass and waste etc.).

Industrial Engineering and Management

Education of industrial engineers is focused so that they are qualified to solve technically-organisational and development issues, especially at the middle management level of a production organisation. They are able to coordinate solution of complex problems concerning logistics and supply chain management, production logistics and optimization of inventory, material flow, implementation of enterprise-wide information systems, production planning and control, quality management, design of production processes and system, innovation management, introduction of industrial engineering methods into individual departments, computer modelling of enterprise processes, project management, application of operation researcher methods and similar.
Graduates are prepared for career in middle management of a production organisation and in departments of industrial engineering. The graduate is able to work as a system engineer, quality engineer, productivity engineer, production system designer, production engineer, specialist in technical preparation of production, industrial engineer, head of production control and planning department, head of a department of logistics, head of a department of maintenance, employee of human resources department and other. Graduates meet the prerequisites necessary for being a part of the top management (after corresponding work experience).

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