Bachelor's studies
Characteristics of the Graduate:
The graduate has basic knowledge of mathematics, chemistry, physics, production of metals, their casting, foundry, production and application of non-metallic materials, high-temperature processes, thermal engineering and metallurgical energy; he/she knows the basic methods and means of organizing, controlling, modeling and simulation of processes. He/she has an overview of numerical simulations and physical modelling of metallurgical processes. Understands the laws of conservation of mass and energy. Understands energy sources and fuel combustion technologies.
The graduate understands technical, economic, managerial and legal disciplines within the scope of the needs of the field; understands the interrelationships, knows the necessary theories, concepts and methods of the field enabling to collect data and perform problem analysis for the performance of lower technical or management functions; understands the possibilities, conditions and limitations of the use of theories, concepts and methods in technical practice; can independently implement a less demanding research project, find, sort and present information relevant to the solution of the entrusted task, and, if necessary, propose simple innovative procedures. Applies knowledge of combustion processes and heat transfer in thermo-technical processes. It focuses on the greening, digitalisation and decarbonisation of industry and addresses the interchangeability of energy sources.
Teaching courses:
For more information about the courses, please refer to the information portal MAIS.
NEW BACHELOR'S DEGREE STUDY PROGRAMMES ARE BEING PREPARED
New study programmes are in the phase of accreditation approval
New study programme
Digitalisation of metallurgical processes
The study focuses on industrial processes in metallurgy and the implementation of digital technologies and skills in metallurgical processes, with emphasis on two main areas that often overlap: advanced tools for optimizing the production chain and specific technologies for achieving low-carbon and sustainable production, in order to increase the competitiveness and sustainability of industrial plants, reduce the amount of emissions produced and increase the level of proficiency. The core of the programme is the acquisition of theoretical knowledge and digital skills, personal and interpersonal skills (soft skills), an overview of the possibilities of using and applying a software portfolio for sustainable and competitive industrial production, modelling and simulation of processes. The programme focuses on the digital and long-term sustainable transformation of industry. Graduates will gain an overview of different manufacturing technologies including metallurgy, the latest technologies available for metal production, ways to reduce the carbon footprint of industry and sustainable business practices. The graduate will acquire organisational and presentation skills. The aim of this programme is to prepare future professionals who can independently address the challenges and tasks facing the industry with an emphasis on the environment and technological advancement.
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New study programme
Business management of applied technologies
The combination of business management and applied technologies provides graduates with a wide range of knowledge and skills that are important in the modern business environment. This programme enables students to learn how to effectively manage and use technology in the business world, which is very important in times of rapid technological change. It also encourages innovation and the creation of new ways of using technology to improve business processes and strategies in the context of sustainable production. Graduates of the Business Management of Applied Technologies programme will have the basic theoretical knowledge of process management. The student applies the knowledge of business management in various metallurgical and engineering production technologies in order to continuously improve production processes and production technologies for sustainable production.