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Lecturer(s)
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Hrabovský Miroslav, prof. RNDr. DrSc.
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Pech Miroslav, Mgr. Ph.D.
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Course content
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Materials testing - mechanical properties of materials - technological properties of materials - internal defects of materials - nanoindentation Degradation properties in materials Metallography basics - sample preparation - sample evaluation Machining technologies - cutting operations (turning) - multiedge machining (grinding) Metallurgy in mechanical engineering - cast production - forming technologies (hot and cold working ) - heat treatment of metals - chemical-heat treatment of metals Materials cutting - classification of methods Materials joining - mechanical joints - thermal methods (welding, soldering) - bonding Technological applications of laseres Excursion
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Learning activities and teaching methods
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Lecture, Work with Text (with Book, Textbook), Projection (static, dynamic)
- Attendace
- 39 hours per semester
- Homework for Teaching
- 20 hours per semester
- Preparation for the Exam
- 61 hours per semester
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Learning outcomes
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Give an overview about materials characteristics and methods of their measurement. Get some practical information about metallographic specimen preparation. Clear up the principles of heat and chemical-heat treatment of metals. Introduce conventional and modern technologies of casting, forming, machining, cutting and joining of materials. Excursion to the workshop employing modern production and processing technologies.
Comprehension. Have an overview about destructive and non-destructive methods of technical materials testing. Describe individual testing methods. Distinguish degradation processes in metal materials. Describe basic kinds of fractures. Practice with metallographic specimen preparation and evaluation. Know principles of heat and chemical-heat treatment of materials. Have an overview about technologies of heat treatment, forming, machining, cutting and joining. Know basic applications of lasers in industry and their principles.
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Prerequisites
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Not specified.
SLO/ZNM1
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Assessment methods and criteria
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Oral exam, Written exam
Passing the written and oral examination.
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Recommended literature
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Cerny K. Termodynamika_2023. .
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Fischer, U. (2004). Základy strojnictví. Europa Sobotáles.
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Hyspecká, L. (1975). Teorie tepelného zpracování. ES VŠB, Ostrava.
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Jandoš F., Říman R., Gemperle A. (1985). Využití moderních laboratorních metod v metalografii. SNTL, Praha.
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Jech, J. (1983). Tepelné zpracování ocelí. SNTL, Praha.
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Kopřiva M. (1993). Fraktografie. UP Olomouc.
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Kříž, R. a Vávra, P. (1993). Strojírenská příručka - 8 svazků. Scientia, Praha.
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Mandát Dušan. Rapid prototyping.
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Michna Š., Nová I. (2008). Technologie a zpracování kovových materiálů. ADIN.
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Ptáček, L. a kol. (2003). Nauka o materiálu I. a II.. Akademické nakl. CERM.
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Ready J. F. (2001). LIA Handbook of Laser Materials Processing, Laser Institute of America. Magnolia Publishing.
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Schovánek P. ZNM1_kap_V_2019. .
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Schovánek P. ZNM1_ZANM1_kap_I_az_IV_2019. .
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Schovánek Petr. Beztřískové obrábění - slévárenství.
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Steen, W. M. (2003). Laser Material Processing. Springer, London.
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Šebestová H., Chmelíčková H. Svařování. .
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Tomaštík J. Fyzikální vlastnosti kovu a jejich testovani. 2023.
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Tomaštík J. Kompozity. .
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Tomaštík J. Vady krystalové mříže. .
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Tomaštík J. Vnitrni stavba kovů. 2023.
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Veles, P. (1985). Mechanické vlastnosti a skúšanie kovov. ALFA-SNTL, Bratislava.
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Yang F., Li J.C.M., eds. (2008). Micro and Nano Mechanical testing of Materials and Devices. Springer Science + Business Media.
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