Applied Mechanics

Faculty Faculty of Mechanical Engineering
Language of instruction  English
Eligibility Recognised tertiary education (Master degree) as prescribed by Act No. 49/2009, Coll. (not necessary for applicants from Slovakia, Poland, Hungary, Germany and Slovenia).
Entrance examination/interview
Duration 4 years
Fee / Academic year USD 2000
Application fee CZK 500 / USD 25
Application deadline January 31, June 24, August 31

 

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Applied Mechanics

The doctoral study branch Applied Mechanics is focused on independent scientific and research projects in the field of mechanics. Its aim is to produce highly-educated and creative graduates capable of taking part in scientific, research and professional applications of the laws of mechanics in mechanical engineering. To be able to succeed in solutions of tasks in the fields of engineering mechanics, the Ph.D. candidates further extend and refine their knowledge of mathematics, physics (mechanics) and applied sciences in the theoretical foundation of the study discipline.

 

The graduates are able to independently apply the mastered skills and the high level of theoretical knowledge provided in lectures and acquired through modern learning methods for solving specific problems in the selected areas of engineering mechanics, mechanics of rigid and pliable bodies, mechanics of liquids and thermodynamics. Furthermore, they are familiar with the research methods in the field of applied mechanics and capable of critical analysis, evaluation and synthesis, thus able to discuss the results of their investigations and to extend the sum of the current knowledge in a professional way worth of publishing and sharing with other members of the professional community both in their country and abroad.

 

After the completion of the study branch the graduates will succeed in positions of research team members in both theoretical and applied research areas or as experts in the teams of industrial development centres and major research institutions focusing on a particular area. Due to their profound knowledge and professional approaches, they will also succeed in a broader context as lecturers of the tertiary education institutions.

Manufacturing Systems and Processes

The doctoral study branch Manufacturing Systems and Processes is focused on scientific research and independent creative projects in the field of research or development. Its aim is to produce highly-educated and creative graduates capable of taking part in scientific, research and professional activities in the field of development of systems and processes in the production of machinery. To be able to succeed in solutions of tasks in the fields of manufacturing systems, automation of machines and/or manufacturing processes in machinery, the PhD. candidates further extend and refine their knowledge of mathematics, physics and applied sciences in the theoretical foundation of the study discipline.

 

The graduates are able to independently apply the mastered skills and the high level of theoretical knowledge provided in lectures and acquired through modern learning methods for solving specific problems in the fields of applied cybernetics, automation of machines and manufacturing processes, automation of production planning, manufacturing systems with industrial robots, etc. Furthermore, they are familiar with the research methods in the field of applied mechanics and capable of critical analysis, evaluation and synthesis, thus able to discuss the results of their investigations and to extend the sum of the current knowledge in a professional way worth of publishing and sharing with other members of the professional community both in their country and abroad.

 

After the completion of the study branch the graduates will succeed in teams of designers and controllers of modern manufacturing systems as well as in the research and development teams in both theoretical and applied research areas in major research institutions focusing on a particular area. Due to their profound knowledge and professional approaches, they will also succeed in a broader context as lecturers of the tertiary education institutions.

 

Material Engineering

The doctoral study branch Material Engineering is focused on independent scientific and research projects in the field of materials. Its aim is to produce highly-educated and creative graduates capable of taking part in scientific, research and professional applications and developments of materials for mechanical engineering.

 

The Ph.D. candidates further extend and refine their knowledge of mathematics, physics and applied sciences in the theoretical foundation of the study discipline to be able to succeed in solutions of tasks in the fields of research into new materials, their properties and potential optimal uses for both metallic and non-metallic applications.

 

The graduates are able to independently apply the mastered skills and the high level of theoretical knowledge provided in lectures and acquired through modern learning methods for solving specific problems in the selected areas of material engineering:

 

a) New materials:
New metallic materials and inter-metallic compounds, ceramic materials, composite materials with polymeric matrix, surface finishes of materials and testing of properties of materials;

b) Mechanics, rheology and thermodynamics of polymers:
Study of mechanical properties of polymers in the solid phase, study of rheological behaviour of polymer melts and mixtures with the goal of achieving the required molecular structure and the required physical and chemical properties in the solid phase, study of thermal and other characteristics of polymers;

c) Structure and properties of polymers:
Study of correlations between the molecular structure and the properties of polymers in the solid phase taking into account the processing of materials and their functional properties in the widest spectrum of applications (structural polymer materials, polymer composites), resistance to corrosive environment according to the chemical nature of the polymer material and its molecular structure (orientation, stress), optical properties, etc.

 

Furthermore, the graduates are familiar with the research methods in the field of production systems and processes and capable of critical analysis, evaluation and synthesis, thus able to discuss the results of their investigations and to extend the sum of the current knowledge in a professional way worth of publishing and sharing with other members of the professional community both in their country and abroad.

 

After the completion of the study branch the graduates will succeed in positions of research team members in both theoretical and applied research areas or as experts in the teams of industrial development centres and major research institutions focusing on a particular area. Due to their profound knowledge and professional approaches, they will also succeed in a broader context as lecturers of the tertiary education institutions.