Educational program

More details
Code – Speciality 6B07201 - Metallurgy
The aim of the educational program

Training of highly qualified specialists through the formation of General cultural and professional-special competencies that allow graduates to successfully work in the mining industry, contributing to its social mobility and competitiveness in the labor market.
Graduate model
Graduate qualification Professional sphere:

Processing of ores and other materials in order to obtain concentrates, processes for obtaining metals and alloys, metal products of the required quality, as well as processing processes in which the chemical composition and structure of metals (alloys) to achieve certain properties.
The object of professional occupation:

- technological processes and devices for processing of mineral and technogenic raw materials, production and processing of non-ferrous and rare metals, and also products from them;
- industrial enterprises of non-ferrous metallurgy, chemical, mining and machine-building industries;
- production, design and scientific divisions;
- firms of different forms of ownership.
Types of professional occupation:

- industrial-technological;
- organizational and managerial;
- research;
- settlement and design.
Functions of professional occupation:

- implementation of technological processes for the production and processing of metals and alloys, as well as products from them;
- control over the technological process and operation of the equipment;
- ensuring compliance with the regulations of the technological process and the quality of the products;
- implementation of measures to protect the environment from man-made impacts of production;
- preparation of technical documentation on quality management of technological processes in production;
- preparation of initial data for selection and justification of scientific,technical and organizational decisions based on economic decisions;
- collection of information for feasibility studies and participation in the development of new projects and reconstruction of existing workshops, industrial units and equipment;
- calculation and design of individual stages of the process in accordance with the terms of reference using standard design automation.
Graduate competences map
Formed core competencies Program outcome
1. The ability to evaluate various situations based on a holistic, systemic scientific worldview. Possess the skills of perception and analysis of information of philosophical and historical content, methods of conducting discussion and polemic. Be able to express their thoughts correctly and defend their own opinions on issues of social importance in a reasoned manner.
2. Ability to carry out cultural and verbal communication using modern communication tools and technologies. Possess communication skills that allow effective implementation of professional activities. To search and process information using ICT.
3. The ability to form and define a personality in a social environment and focus on a healthy lifestyle. Demonstrate knowledge that contributes to the formation of a holistic personality in an economic and legal environment; make informed decisions, taking into account inclusivity and ensuring equal opportunities for all participants.
4. Ability to apply knowledge in the field of mathematical, natural Sciences, Economics and Humanities in complex engineering activities Interpret different physical and chemical concepts, laws, conduct experiments, summarize the results
To use the acquired knowledge in complex engineering activity for the purpose of modeling of objects and technological processes in metallurgy
5. Ability to possess basic knowledge for information processing and to use information technologies for solving communicative tasks Own the basic methods, methods and means of obtaining, storing, processing information
To understand the essence and importance of information in the improvement of modern metallurgical technologies and materials
6. Ability to demonstrate knowledge of legal, social, environmental and cultural aspects of integrated engineering Apply the skills of organization and management activities, performing solutions, the organization of the work of the team
To implement international standards of quality management system in production and to show the skills of public speaking
7. Ability to perform design and technological activities and assess the innovative potential of the project, innovative risks Apply artificial intelligence and immersive technologies that create interactive models of metallurgical processes in the processing of ores and concentrates
Organize the management of technological processes in the metallurgy of non-ferrous, rare and precious metals. Participate in innovation and rationalization activities in the metallurgy of non-ferrous, rare and precious metals
8. Creation of innovative technologies and materials in the production of non-ferrous metals and their products, participation in scientific and innovative activities Carry out the necessary experiments in the production of non-ferrous metals and products from them according to the specified methods with the processing and analysis of the results
To master the introduced new equipment, to check the technical condition and the residual life of the existing technological equipment
9. Ability to apply modern methods for the development of complex, energy-saving and environmentally friendly metallurgical technologies Possess basic concepts and laws, patterns and theories, as well as modern technologies to explain and use knowledge in enrichment and metallurgical processes
To comply with the technological regulations for production of metallurgical products, develop production technologies, apply quality control methods
Modular Curriculum
Secondary disciplines Base disciplines Profiling disciplines