Lecturer(s)
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Sedlák Josef, doc. Ing. Ph.D.
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Monka Peter Pavol, doc. Ing. Ph.D.
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Course content
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1. Technical drawing - tolerance of longitudinal and angular dimensions. Theoretical bases of machining. 2. Conventional machining technologies. 3. CNC machining technology. 4. Unconventional machining methods. 5. Additive technologies - methods of rapid prototyping. 6. Reverse engineering technology. 7. Basic casting technology. 8. Theoretical bases of casting. 9. Rapid Tooling - direct metal casting. 10. Surface forming technology. 11. Technology of volume forming. 12. Application of selected technologies to examples from engineering practice. 13. Repetition.
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Learning activities and teaching methods
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Monologic (Exposition, lecture, briefing), Methods for working with texts (Textbook, book), Methods for written tasks (e.g. comprehensive exams, written tests)
- Preparation for course credit
- 12 hours per semester
- Participation in classes
- 52 hours per semester
- Home preparation for classes
- 12 hours per semester
- Preparation for examination
- 24 hours per semester
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prerequisite |
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Knowledge |
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Understanding the physical processes on which the operation of individual technological equipment and technological processes is based is a basic prerequisite for successful completion of a master's degree in Industrial Engineering. Basic knowledge and principles used in the most important production technologies that FaME graduates will encounter in practical life. |
Understanding the physical processes on which the operation of individual technological equipment and technological processes is based is a basic prerequisite for successful completion of a master's degree in Industrial Engineering. Basic knowledge and principles used in the most important production technologies that FaME graduates will encounter in practical life. |
learning outcomes |
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A very good overview of the basic know-how that forms the basis of our industrial company. Ability to apply this knowledge in all related subjects, which from various perspectives address the issue of monitoring, organizing and managing all aspects of production activities. A properly completed course will enable graduates who find employment in production organizations a comprehensive view of technical practice, which is the basis of activity and the reason for the existence of each such organization. |
A very good overview of the basic know-how that forms the basis of our industrial company. Ability to apply this knowledge in all related subjects, which from various perspectives address the issue of monitoring, organizing and managing all aspects of production activities. A properly completed course will enable graduates who find employment in production organizations a comprehensive view of technical practice, which is the basis of activity and the reason for the existence of each such organization. |
define sub-manufacturing technologies in the context of an industrial firm |
define sub-manufacturing technologies in the context of an industrial firm |
to comprehensively describe the production process and related issues with direct relation to technical practice |
to comprehensively describe the production process and related issues with direct relation to technical practice |
characterize the basic technological approaches for individual technologies and production methods |
characterize the basic technological approaches for individual technologies and production methods |
describe the essence of basic machining technologies (conventional, CNC, non-conventional), forming and foundry |
describe the essence of basic machining technologies (conventional, CNC, non-conventional), forming and foundry |
describe the essence of additive technology (basic 3D printing methods) and reverse engineering technology |
describe the essence of additive technology (basic 3D printing methods) and reverse engineering technology |
characterize the specified conditions and basic calculations related to partial production technologies |
characterize the specified conditions and basic calculations related to partial production technologies |
Skills |
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evaluate the production process with respect to the specified input requirements |
evaluate the production process with respect to the specified input requirements |
decide on the appropriate application of production technology |
decide on the appropriate application of production technology |
correctly design and determine the efficiency of the production process |
correctly design and determine the efficiency of the production process |
establish the necessary production conditions |
establish the necessary production conditions |
classify and select sub-production technologies with regard to their profitability |
classify and select sub-production technologies with regard to their profitability |
evaluate the production process with regard to its economy |
evaluate the production process with regard to its economy |
teaching methods |
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Knowledge |
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Monologic (Exposition, lecture, briefing) |
Monologic (Exposition, lecture, briefing) |
Methods for working with texts (Textbook, book) |
Methods for working with texts (Textbook, book) |
Methods for written tasks (e.g. comprehensive exams, written tests) |
Methods for written tasks (e.g. comprehensive exams, written tests) |
assessment methods |
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Written examination |
Oral examination |
Analysis of the student's performance |
Written examination |
Analysis of the student's performance |
Oral examination |
Grade (Using a grade system) |
Grade (Using a grade system) |
Recommended literature
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AB SANDVIK COROMANT - SANDVIK CZ s.r.o. Příručka obrábění - Kniha pro praktiky. Praha, Scientia, s.r.o, 1997. ISBN 91-97 22 99-4-6.
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DVOŘÁK, M., GAJDOŠ, F., NOVOTNÝ, K. Technologie tváření: plošné a objemové tváření. Učební texty vysokých škol. 5. vyd.. Brno: CERM, 2013. ISBN 978-80-214-4747-9.
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HOSFORD, W. F., CADDEL, M. R. Metal Forming: Mechanics and Metalurgy. New York: Cambridge University Press, 2007.
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HUMÁR, A. TECHNOLOGIE I. TECHNOLOGIE OBRÁBĚNÍ ? 2. část. FSI VUT v Brně, 2004.
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HUMÁR, A. TECHNOLOGIE I. TECHNOLOGIE OBRÁBĚNÍ ? 3. část. Brno: FSI VUT v Brně, 2005.
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CHUA, C. K., LEONG, K. F., LIM, C. S. Rapid Prototyping: Principles and Applications. New Jersey: World Scientific, 2010. ISBN 978-981-277-897-0.
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KOCMAN, K., PROKOP, J. Technologie obrábění. Brno: Akademické nakladatelství CERM, s.r.o., 2005. ISBN 80-214-3068-0.
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KOCMAN,K. Speciální technologie ? obrábění. CERM s.r.o. Brno, 2004. ISBN 80-214-2562-8.
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RAJA, V., FERNANDES, K. J. Reverse Engineering: An Industrial Perspective. Series: Springer Series in Advanced Manufacturing, 2008. ISBN 978-1-84628-856-2.
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ROUČKA, J. Metalurgie neželezných slitin. Brno: Akademické nakladatelství CERM, s.r.o., 2004.
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SEDLÁK, J. Aditivní technologie ? metody Rapid Prototyping. Učební opory ? text pro bakalářskou formu studia. Brno: FSI VUT v Brně, 2010.
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SHAW, M.C. Metal Cutting Principles. Oxford University Press, 2005. ISBN 0-19-514206-3.
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TLUSTY, J. Manufacturing Process and Equipment. Prentice Hall, 1999. ISBN 10-0201498650.
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