NE_VTE Production technology for the economy

Institute of Technology and Business in České Budějovice
summer 2021
Extent and Intensity
2/2/0. 5 credit(s). Type of Completion: zk (examination).
Teacher(s)
doc. Ing. Ladislav Socha, MBA, Ph.D. (seminar tutor)
Guaranteed by
doc. Ing. Ladislav Socha, MBA, Ph.D.
The Department of Mechanical Engineering – Faculty of Technology – Rector – Institute of Technology and Business in České Budějovice
Supplier department: The Department of Mechanical Engineering – Faculty of Technology – Rector – Institute of Technology and Business in České Budějovice
Timetable of Seminar Groups
NE_VTE/NE1: Sat 6. 3. 13:05–14:35 B2, 14:50–16:20 B2, 16:30–18:00 B2, Sat 27. 3. 13:05–14:35 B1, 14:50–16:20 B1, 16:30–18:00 B1, Sat 10. 4. 8:00–9:30 B2, 9:40–11:10 B2, L. Socha
NE_VTE/P01: Wed 11:25–12:55 N205, L. Socha
NE_VTE/S01: Wed 13:05–14:35 N205, L. Socha
Prerequisites (in Czech)
NE_SMT Engineering mat. for ec.
Course Enrolment Limitations
The course is offered to students of any study field.
Course objectives supported by learning outcomes
The subject is focused on obtaining findings about progressive technologies of production of technical materials used in the engineering practice. Attention is paid to basic technological connections at production and treatment of individual materials presenting: raw materials resources, technology of production and treatment of metals and their alloys. Students get an idea about the basis of technological processes of production, treatment and casting of metals and their alloys which in large measure participate in utility properties of metal materials. This knowledge is the basis for getting an idea about the possibilities of application of technical materials in the engineering practice. Knowledge and competences from the transfer of technical and technological know-how into the processes of economical management of production companies are the results of this study. The study enables to obtain unique findings about the basic technologies of production and treatment of metals and their alloys within the compact technological series during the study of economy and management.
Learning outcomes
Student will be able after finishing this subject:
- to define basic dividing of steel grades, cast irons and alloys of nonferrous metals and to describe mechanical, technological properties of given materials;
- to describe basic processes, refining technologies and secondary metallurgy used during metallurgical treatment of steel, cast irons and nonferrous metals;
- to apply theoretical and practical findings from the field of metallurgy for the management of metallurgical treatment of steel, cast irons and nonferrous metals;
- to use the findings of foundry technologies in deciding about using of suitable metallurgical process and following procedure of treatment at production of steel, cast irons and nonferrous metals;
- to determine basic types of metallurgical defects, causes of their origin and possibilities of their elimination.
Syllabus
  • Lectures:
  • 1. Introduction into the production technologies – importance, state of art and perspectives of individual technologies.
  • 2. Characteristics of types and marking of steels, principles of batch preparation for casting of steel and basic metallurgical reactions.
  • 3. Technology and principle of steel production in primary aggregates – oxygen converters, electric arc furnaces.
  • 4. Treatment of steel on units for secondary metallurgy – ladle furnaces and vacuum stations.
  • 5. Casting of casts, course of casts solidification, casts defects – casting into forms, mould and units for continuous casting.
  • 6. Basic classification of foundry cast irons, principles of batch preparation for casting of iron cast.
  • 7. Foundry units and processes of casting - cupola furnaces, electric and induction furnaces.
  • 8. Characteristics of metallurgical processes of production and secondary metallurgy treatment of cast irons – basic metallurgical reactions, inoculation and modification.
  • 9. Production of casts, foundry mixtures and forms, types of models, gating system, classification and characteristics of metallurgical defects of cast irons.
  • 10. Basic types of aluminium, magnesium, copper and zinc alloys – chemical composition, batch raw materials.
  • 11. Materials properties of alloys of nonferrous metals – mechanical, physical and technological.
  • 12. Principles of metallurgical treatment – melting and holding furnaces, modification, inoculation, refining processes.
  • 13. Basic methods of casting of alloys of nonferrous metals and their classification, inspection of cast and defects repair.
  • Seminars:
  • 1. Introduction seminar → work with standards → characteristics, classification, marking of steels, cast irons and nonferrous metals; assignment of individual topics of seminar thesis, safety instructions for visits of foundry plants.
  • 2. Laboratory practice → Modelling of process of steel crystallization → preparation and realization of modelling of crystallization, evaluation and drawing up a laboratory report.
  • 3. Laboratory practice → Influence of casting parameters on creation of shirkage → preparation and realization of laboratory casting, evaluation and drawing up a laboratory report.
  • 4. Laboratory practice → Study of heterogeneity of casts of steel → preparation and realization of study of segregation on selected steel grades, evaluation and drawing up a laboratory report.
  • 5. Excursion → video-sequences of production in selected steelworks → ArcelorMittal Ostrava a.s. , Třinecké železárny a.s., Vítkovice Heavy Machinery a.s. and ŽĎAS, a.s.
  • 6. Computational exercises → Inoculation and modification of cast irons → determination of metallurgical effects of inoculation and modification of melts, drawing up a calculation report according to the individual task.
  • 7. Laboratory practice → Light microscopy → preparation of samples of various g rad es of cast irons → analysis of structures and determination of individual types of cast irons, evaluation and drawing up a laboratory report.
  • 8. Excursion to the cast iron foundry → realized at industry partners of ITB in České Budějovice.
  • 9. Laboratory practice → Physical modelling of refining of aluminium alloys → preparation and realization of physical modelling on model FDU (Foundry Degassing Unit), evaluation and drawing up a laboratory report.
  • 10. Laboratory practice → Thermal analysis of alloys of nonferrous metals → preparation and melting of selected alloys, realization of thermal analysis, evaluation and drawing up a laboratory report.
  • 11. Laboratory practice → Determination of gassing of aluminium alloys → preparation and melting of selected alloys, realization of gasification with determination of Dichte Index, Straube-Pffeifer test, Drosstest, evaluation and drawing up a laboratory report.
  • 12. Excursion to the aluminium and zinc foundry → realized at industry partners of ITB in České Budějovice.
  • 13. Evaluation of seminar thesis, drawing up a test aiming the discussed topics and individual seminars.
Literature
    required literature
  • SAHOO, M. a S. SAHU, 2014. Principles of Metal Casting. 3rd ed. [s. l.]: McGraw Hill Professional. ISBN 9780071789752.
  • NĚMEC, M., B. BEDNÁŘ a B. BRYKSÍ STUNOVÁ, 2016. Teorie slévání. 2. vyd. Praha: České vysoké učení technické. ISBN 978-80-01-06026-1.
  • MACHEK, V., 2015. Kovové materiály 4: výroba a zpracování ocelí a litin. Praha: České vysoké učení technické. ISBN 978-80-01-05686-8.
  • MATUCHA, J. a I. NOVÁ, 2014. Slévárenské formy. Liberec: Technická univerzita. ISBN 978-80-7494-083-5.
  • MICHNA, Š. a L. MICHNOVÁ, 2014. Neželezné kovy. Děčín: Štefan Michna, Lenka Michnová. ISBN 978-80-260-7132-7.
  • MICHNA, Š., 2015. Technologie a zpracování hliníkových materiálů. 2. vyd. Ústí nad Labem: Štefan Michna. ISBN 978-80-260-7706-0.
    recommended literature
  • BEDDOOES, J. a M. J. BIBBY, 1999. Principles of Metal Manufacturing Processes. [s. l.]: Butterworth-Heinemann. ISBN 9780080539553.
  • ŠENBERGER, J., 2008. Metalurgie oceli na odlitky. Brno: VUTIUM. ISBN 978-80-214-3632-9.
  • JELÍNEK, P., 2007. Slévárenství. 5. vyd. Ostrava: VŠB-Technická univerzita Ostrava. ISBN 978-80-248-1282-3.
  • VONDRÁK, V., J. HAMPL a A. HANUS, 2005. Metalurgie litin: mimopecní zpracování roztavené litiny. Ostrava: VŠB-Technická univerzita Ostrava. ISBN 80-248-0777-7.
  • NĚMEC, M. a J. PROVAZNÍK, 2008. Slévárenské slitiny neželezných kovů. Praha: České vysoké učení technické. ISBN 978-80-01-04116-1.
  • SILBERNAGEL, A., 2011. Struktura, vlastnosti, zkoušení a použití kovů. Ostrava: Kovosil. ISBN 978-80-903694-6-7.
Forms of Teaching
Lecture
Seminar
Teaching Methods
Frontal Teaching
Group Teaching - Cooperation
Project Teaching
Brainstorming
Critical Thinking
Individual Work– Individual or Individualized Activity
Teaching Supported by Multimedia Technologies
Student Workload
ActivitiesNumber of Hours of Study Workload
Daily StudyCombined Study
Prezentace (in Czech)11
Příprava na prezentaci (in Czech)11
Preparation for the Mid-term Test1010
Preparation for Lectures26 
Preparation for Seminars, Exercises, Tutorial2020
Preparation for the Final Test1010
Příprava seminární práce (in Czech)1010
Attendance on Lectures26 
Attendance on Seminars/Exercises/Tutorial/Excursion2678
Total:130130
Assessment Methods and Assesment Rate
Exam – written 70 %
Test – mid-term 20 %
Presentation 5 %
Seminary Work 5 %
Exam conditions
At the beginning of the semester, the teacher informs the students how to successfully complete the course. During the semester, you will complete a continuous assessment in the form of a test, seminar work and presentations. (30% in total) The exam will be written for 70 points (70%)
Language of instruction
Czech
Teacher's information
Attendance in lessons is defined in a separate internal standard of ITB (Evidence of attendance of students at ITB). It is compulsory, except of the lectures, for full-time students to attend 70 % lesson of the subjet in a semester.
The course is also listed under the following terms summer 2022, SUMMER 2023, summer 2024.
  • Enrolment Statistics (summer 2021, recent)
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