study programme
Manufacturing Technology
Original title in Czech: Strojírenská technologieFaculty: FMEAbbreviation: D-STG-PAcad. year: 2023/2024
Type of study programme: Doctoral
Study programme code: P0715D270019
Degree awarded: Ph.D.
Language of instruction: Czech
Accreditation: 18.2.2020 - 18.2.2030
Mode of study
Full-time study
Standard study length
4 years
Programme supervisor
Doctoral Board
Fields of education
Area | Topic | Share [%] |
---|---|---|
Mechanical Engineering, Technology and Materials | Without thematic area | 100 |
Study aims
The doctoral study programme in Manufacturing Technology is focused on production sciences and technologies, namely machining, forming, welding, foundry technology, surface treatment technology, including automation of production preparation and automation of production processes that use and require these technologies.
During the study, students will gain knowledge of applied mathematics, physical metallurgy, experimental theory and optimization of technological processes, along with other theoretical and practical knowledge closely related to the selected area of doctoral study.
The aim of the doctoral study programme is to prepare highly qualified staff for scientific work in the field of engineering technology. The study is focused on the knowledge of the theoretical basis of the whole field and also on a detailed acquaintance with the most important findings in a narrower focus, which are followed by the topics of the dissertation. The study is focused on preparation for scientific work in the chosen field and the achieved level of knowledge is presented at the state doctoral examination.
The ability to achieve original scientific results is demonstrated by the elaboration and defence of the dissertation. After a successful defence of the dissertation, the graduates of the doctoral study programme are awarded the academic title "Doctor" (abbreviated to Ph.D. after the name).
Graduate profile
In the doctoral study of the Manufacturing Technology programme, it is possible to specialize in the field of machining technology and its optimization, forming and welding technology, foundry technology, production management, machine modelling applications and computer simulations. Doctoral students are able to participate in all forms of research, contract development and economic cooperation with industrial companies, where they solve advanced problems of technical practice. They also have the opportunity to take advantage of short-term and long-term internships and study stays in our country and within the EU in cooperation with foreign universities.
Graduates of the doctoral study program Engineering Technology have comprehensive professional skills and knowledge of production technologies, methods of their management and planning, have knowledge in the field of materials science and engineering in application to selected production technologies, both theoretical and practical.
Graduates of the doctoral study programme in Manufacturing Technology are expected to be employed in leading positions associated with the technical and technological preparation of production, its management and further development.
Graduates will also be employed as research and development staff in applied research centres as well as academic staff at universities and academic institutions.
Profession characteristics
Graduates of doctoral studies are equipped with very good theoretical and professional knowledge and therefore have a wide range of employment opportunities in professional or management positions within state and private engineering or interdisciplinary manufacturing companies, from small and medium-sized companies to large joint stock companies. The acquired knowledge can also be used as research and development workers or private entrepreneurs in our country and abroad.
Fulfilment criteria
See applicable regulations, DEAN’S GUIDELINE Rules for the organization of studies at FME (supplement to BUT Study and Examination Rules)
Study plan creation
The rules and conditions of study programmes are determined by:
BUT STUDY AND EXAMINATION RULES
BUT STUDY PROGRAMME STANDARDS,
STUDY AND EXAMINATION RULES of Brno University of Technology (USING "ECTS"),
DEAN’S GUIDELINE Rules for the organization of studies at FME (supplement to BUT Study and Examination Rules)
DEAN´S GUIDELINE Rules of Procedure of Doctoral Board of FME Study Programmes
Students in doctoral programmes do not follow the credit system. The grades “Passed” and “Failed” are used to grade examinations, doctoral state examination is graded “Passed” or “Failed”.
Availability for the disabled
Brno University of Technology acknowledges the need for equal access to higher education. There is no direct or indirect discrimination during the admission procedure or the study period. Students with specific educational needs (learning disabilities, physical and sensory handicap, chronic somatic diseases, autism spectrum disorders, impaired communication abilities, mental illness) can find help and counselling at Lifelong Learning Institute of Brno University of Technology. This issue is dealt with in detail in Rector's Guideline No. 11/2017 "Applicants and Students with Specific Needs at BUT". Furthermore, in Rector's Guideline No 71/2017 "Accommodation and Social Scholarship“ students can find information on a system of social scholarships.
What degree programme types may have preceded
The Doctoral Study Programme in Manufacturing Technology is a continuation of the currently accredited master's degree programme in Manufacturing Technology (N-STG), with specializations in Engineering Technology (STG), Engineering Technology and Industrial Management (STG), Modern Lighting Systems (MTS) and Foundry Technology (N-SLE) without specialization.
In the study of Manufacturing Technology, it is possible to specialize in machining technology and its optimization, forming and welding technology, foundry, production control, machine modelling applications, computer aided manufacturing technologies, computer simulations and thus allows to continue in the third stage of study. On the basis of a successful defence and achieving the scientific degree of Ph.D. the graduate demonstrates the ability of scientific work.
Issued topics of Doctoral Study Program
- Optimization of machining technology using the elements of Industry 4.0
Machining technology is a key manufacturing process for a number of products. Requirements for high productivity and acceptable costs lead to the need to optimize technological processes. Optimization concerns tools, their geometry, cutting material, or coating. Furthermore, there are working conditions, cutting speed, feed depth of cut, including working geometry and possible use of process fluid. Currently, the need to introduce production according to the principles of Industry 4.0 is growing. In this context, the system machine - tool - workpiece - fixture must be minitored to a much greater extent as a single unit. The introduction of automation, robotization and digitization places higher requirements on operational reliability in order to achieve maximum efficiency of the production process. From this point of view, it is necessary to look at the process of design and optimization of machining technology. In the field of Industry 4.0, rapid development is taking place, which needs to be analyzed in relation to machining, but at the same time with regard to the entire production process. It is necessary to design procedures for the optimization of machining technology, apply optimization to a specific machining process, and also to generalize the outputs for use in science, teaching, and practice.
- Proposal for testing methodology of cutting tools for stainless steels
The topic of the thesis is focused on the design of methodology and testing of cutting tools made of sintered carbides for stainless steels. The aim of the research is the design of cutting test methodology for developmental cutting tools, their implementation and process analysis, which will be aimed at determining the required properties according to machining operations. The research will cover the evaluation of cutting tool wear, surface quality analysis and other available parameters that will be the basis for the selection of practical applications.
- The influence of strain rate on the mechanical properties of high-strength steels
The topic deals with the influence of strain rate on the mechanical properties of high-strength steels. The main area of focus is the description of the material model, specifically the deformation resistance curves described using constitutive relationships for selected high-strength steel under quasi-static loading conditions. Additionally, it includes dynamic loading conditions, with an emphasis on testing using the Taylor Anvil Test or potentially the Hopkinson pressure bar test, both at ambient temperature and elevated temperatures.
Tutor: Jopek Miroslav, Ing., Ph.D.
Course structure diagram with ECTS credits
Abbreviation | Title | L. | Cr. | Com. | Compl. | Hr. range | Gr. | Op. |
---|---|---|---|---|---|---|---|---|
9EMT | Experimental Methods in Forming | cs, en | 0 | Recommended | DrEx | P - 20 | yes | |
9REP | Reverse Engineering and Rapid Prototyping | cs, en | 0 | Recommended | DrEx | P - 20 | yes | |
9TTT | Theory of Metal-Forming Technology Processes | cs, en | 0 | Recommended | DrEx | P - 20 | yes |
Abbreviation | Title | L. | Cr. | Com. | Compl. | Hr. range | Gr. | Op. |
---|---|---|---|---|---|---|---|---|
9SC2 | CAD System II | cs, en | 0 | Recommended | DrEx | P - 20 | yes |
Abbreviation | Title | L. | Cr. | Com. | Compl. | Hr. range | Gr. | Op. |
---|---|---|---|---|---|---|---|---|
9AJ | English for Doctoral Degree Study | en | 0 | Compulsory | DrEx | Cj - 60 | yes | |
9ATO | Applications of CAD/CAM in Technology of Machining | cs, en | 0 | Recommended | DrEx | P - 20 | yes | |
9CTO | CNC Technologies of Machining | cs, en | 0 | Recommended | DrEx | P - 20 | yes | |
9EMO | Experimental Methods in Machining | cs, en | 0 | Recommended | DrEx | P - 20 | yes | |
9KKS | Crystallization of Metals and Alloys | cs, en | 0 | Recommended | DrEx | P - 20 | yes | |
9MNK | Metallurgy of Non-Ferrous Alloys | cs, en | 0 | Recommended | DrEx | P - 20 | yes | |
9MEO | Metallurgy of Steel | cs, en | 0 | Recommended | DrEx | P - 20 | yes | |
9MMN | Modern Metallurgy of Non-ferrous Metals and Alloys | cs | 0 | Recommended | DrEx | P - 20 | yes | |
9NSS | Numerical Simulation of Foundry Processes | cs, en | 0 | Recommended | DrEx | P - 20 | yes | |
9PPC | Computer Aided of Technological Activities | cs, en | 0 | Recommended | DrEx | P - 20 | yes | |
9PMR | Advanced Materials for Cutting Tools | cs, en | 0 | Recommended | DrEx | P - 20 | yes | |
9PST | Progressive Foundry Technologies | cs, en | 0 | Recommended | DrEx | P - 20 | yes | |
9PTU | Progressive Surface Treatment Technologies | cs, en | 0 | Recommended | DrEx | P - 20 | yes | |
9PTP | Progressive Technologies in Sheet Metal Forming | cs, en | 0 | Recommended | DrEx | P - 20 | yes | |
9SIN | Simultaneous Engineering | cs, en | 0 | Recommended | DrEx | P - 20 | yes | |
9SC1 | CAD System I | cs, en | 0 | Recommended | DrEx | P - 20 | yes | |
9TTS | Theory of Fusion Weldeability of Metals | cs, en | 0 | Recommended | DrEx | P - 20 | yes | |
9TVN | Forming Tools | cs, en | 0 | Recommended | DrEx | P - 20 | yes |