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Lecturer(s)
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Žaludek Milan, Ing. Ph.D.
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Course content
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1. Defects of inner composition and their signification. 2. Tool steels - chemical composition, structure and application. 3. Selected types of binary diagrams. 4. Non-ferrous metals and their alloys, heat treatment, structure, application. 5. Selected tests of metal and non-metal materials. 6. Hardness, microhardness and nanohardness testing of metals, polymers and ceramics. 7. Coating technology. 8. Nitriding. Its principle, suitable steels, structure and properties of nitrided layers. 9. Carburisation. Basic principles and techniques. 10. Powder metallurgy.
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Learning activities and teaching methods
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Lecturing, Demonstration
- Preparation for examination
- 120 hours per semester
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| prerequisite |
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| Knowledge |
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| Basic knowledge of materials science. |
| Basic knowledge of materials science. |
| learning outcomes |
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| types of defects in the internal crystalline structure of metals |
| types of defects in the internal crystalline structure of metals |
| selected types of equilibrium binary diagrams of common alloys |
| selected types of equilibrium binary diagrams of common alloys |
| of the Fe-cementite metastable diagram and the Fe-graphite stable diagram |
| of the Fe-cementite metastable diagram and the Fe-graphite stable diagram |
| basic methods of heat treatment of steels and gray cast iron (hardening, tempering, annealing, refining) ARA and IRA diagrams and TMZ methods (thermal mechanical treatment) |
| basic methods of heat treatment of steels and gray cast iron (hardening, tempering, annealing, refining) ARA and IRA diagrams and TMZ methods (thermal mechanical treatment) |
| chemical-thermal treatment and CVD-PVD coating technologies (cementing, carbonitriding, nitriding, nitrocarbiding, boriding, etc.) |
| chemical-thermal treatment and CVD-PVD coating technologies (cementing, carbonitriding, nitriding, nitrocarbiding, boriding, etc.) |
| basic principles of powder metallurgy, cemented carbides and technical ceramics |
| basic principles of powder metallurgy, cemented carbides and technical ceramics |
| non-ferrous metals and their alloys (aluminium, copper, titanium) |
| non-ferrous metals and their alloys (aluminium, copper, titanium) |
| Skills |
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| use Fe-carbon equilibrium diagrams for the technological processing of steels and cast irons (casting, forming) |
| use Fe-carbon equilibrium diagrams for the technological processing of steels and cast irons (casting, forming) |
| use IRA, ARA diagrams for heat treatment of steels and cast irons |
| use IRA, ARA diagrams for heat treatment of steels and cast irons |
| use equilibrium diagrams of non-ferrous metal alloys for their heat treatment |
| use equilibrium diagrams of non-ferrous metal alloys for their heat treatment |
| apply the principles of choosing the type of heat treatment |
| apply the principles of choosing the type of heat treatment |
| define and design a heat treatment cycle |
| define and design a heat treatment cycle |
| define a suitable materials for machining metals and their alloys |
| define a suitable materials for machining metals and their alloys |
| teaching methods |
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| Knowledge |
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| Lecturing |
| Lecturing |
| Demonstration |
| Demonstration |
| Skills |
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| Practice exercises |
| Practice exercises |
| Dialogic (Discussion, conversation, brainstorming) |
| Dialogic (Discussion, conversation, brainstorming) |
| assessment methods |
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| Knowledge |
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| Written examination |
| Written examination |
| Oral examination |
| Oral examination |
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Recommended literature
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ASM Handbook, Vol. 9, Metallography and Microstructures. ASM International, Materials Park, OH, 2004.
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Brandon, D., Kaplan, W.D. Microstructural Characterization of Materials. New York: Wiley, 1999.
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Hertzberg, R.W. Deformation and Fracture Mechanics of Engineering Materials. 4th Ed. New York: Wiley, 1996.
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Ptáček, a kol. Nauka o materiálu II. Brno : CERM, 1999. ISBN 80-7204-130-4.
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Ptáček, Luděk. Nauka o materiálu I. Brno : CERM, 2001. ISBN 8072041932.
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