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Lecturer(s)
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Michal Stanislav, Mgr.
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Hrabovský Miroslav, prof. RNDr. DrSc.
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Schovánek Petr, RNDr.
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Tomáštík Jan, Mgr. Ph.D.
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Course content
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Surface machining technologies Technologies in optical industry Modern technologies Shape and surface properties control - surface roughness - mechanical methods of control - non-contact methods of control Tribology (friction, lubrication, abrasion) Corrosion (significancy, kinds, protection) Surface protection Thin films - technical (coating) - optical (deposition technologies) Thin films measurement and control Photolitography Modern technical materials (foams , fibers, foils) Nanotechnologies 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
- 26 hours per semester
- Homework for Teaching
- 20 hours per semester
- Preparation for the Exam
- 44 hours per semester
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Learning outcomes
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Introduce technologies of surface machining and surface protection. Give an overview about modern instruments for surfaces control and properties measurement. Introduce questions of tribology and corrosion. Present methods of technical and optical thin films production and control. Present questions of modern forms of technical materials production and nanotechnologies. Excursion to the workshop employing modern methods of technical materials production or processing.
Comprehension. Have an overview about surface machining methods, surface protection and modern instruments for surface properties control and measurement. Have an overview about tribological properties and about methods of their modification. Know questions of corrosion and anticorrosion protection. Describe thin films preparation, know their properties and methods of their measurement. Know modern forms of technical materials and their production methods. Orientation in nanotechnologies.
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Prerequisites
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Not specified.
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Assessment methods and criteria
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Oral exam, Written exam
Passing the written and oral exam.
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Recommended literature
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Bumbálek, B., Odvody, V., Ošťádal, B. (1989). Drsnost povrchu. SNTL, Praha.
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Cardarelli F. (2008). Materials Handbook. Springer - Verlag, London.
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Eckertová, L. (1974). Fyzika tenkých vrstev. SNTL, Praha.
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Knittl, Z. (1976). Optics of thin films. John Wiley & Sons, London - New York - Sydney - Toronto.
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Křepelka, J. (1993). Optika tenkých vrstev. Vydavatelství Univerzity Palackého v Olomouci, http://aix.volny.cz/~krepelka/films.htm.
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Ptáček L. a kol. (2003). Nauka o materiálu I a II. Akademické nakladatelství CERM.
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Sodomka L., Fiala J. (2003). Fyzika a chemie kondenzovaných látek s aplikacemi I. a II.. Adhesiv Liberec.
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Vašíček, A. (1960). Optics of thin films. North Holland, Amsterdam.
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Whitehouse D.J. (2003). Handbook of Surface and Nanometrology. IOP Publishing.
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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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