SubjectsSubjects(version: 965)
Course, academic year 2019/2020
  
Technology of Ceramics - N107015
Title: Technologie keramiky
Guaranteed by: Department of Glass and Ceramics (107)
Faculty: Faculty of Chemical Technology
Actual: from 2019 to 2020
Semester: winter
Points: winter s.:7
E-Credits: winter s.:7
Examination process: winter s.:
Hours per week, examination: winter s.:4/1, C+Ex [HT]
Capacity: unknown / unknown (unknown)
Min. number of students: unlimited
State of the course: taught
Language: Czech
Teaching methods: full-time
Level:  
Is provided by: M107010
Guarantor: Pabst Willi prof. Dr. Dipl.-Min.
Gregorová Eva Ing. CSc.
Is interchangeable with: M107010
Examination dates   Schedule   
Annotation -
This course provides a comprehensive overview of ceramic science and technology. In the first, general, part a survey is given on raw materials, ceramic technology as a whole as well as the microstructure and properties of ceramics. In the second, special, part the main groups of ceramic materials are treated from the chemical viewpoint (oxide, non-oxide and silicate ceramics) and from the viewpoint of microstructure and applications (refractories, porous and cellular, functional, bio- and nanomaterials).
Last update: VED107 (27.11.2013)
Course completion requirements -

The necessary precondition for becoming eligible for classification are two classification tests during the semester. The final exam is oral and concerns the whole content.

Last update: Pabst Willi (01.08.2013)
Literature -

R - Kingery W.D., Bowen H.K., Uhlmann D.R.: Introduction to Ceramics (second edition). Wiley, New York 1976 (ISBN 0-471-47860-1).

R - Rahaman M. N.: Ceramic Processing and Sintering (second edition). Marcel Dekker, New York 2003. (ISBN 0-8247-0988-8).

R - Brook R. J. (ed.): Processing of Ceramics (= vols. 17a and 17b of Cahn R. W., Haasen P., Kramer E. J.: Materials Science and Technology). Wiley-VCH, Weinheim 2005. (ISBN 978-3-527-31395-2).

R - Lee W.E., Rainforth W.M.: Ceramic Microstructures � Property Control by Processing. Chapman & Hall, London 1994. (ISBN 0-412-43140-8).

R - Swain M. (ed.): Structure and Properties of Ceramics (= vol. 11 of Cahn R. W., Haasen P., Kramer E. J.: Materials Science and Technology). Wiley-VCH, Weinheim 2005. (ISBN 978-3-527-31395-2).

R - Richerson D. W.: Modern Ceramic Engineering (third edition). CRC Taylor and Francis, Boca Raton 2006. (ISBN 1-57444-693-2).

A - Green D.J.: An Introduction to the Mechanical Properties of Ceramics. Cambridge University Press , Cambridge 1998. (ISBN 0-521-59913-X).

A - Pabst W., Gregorová E.: Effective elastic moduli of alumina, zirconia and alumina-zirconia composite ceramics, pp. 31-100 in Caruta B.M. (ed.): Ceramics and Composite Materials - New Research. Nova Science, New York 2006. (ISBN 1-59454-370-4).

A - Pabst W., Gregorová E.: Effective thermal and thermoelastic properties of alumina, zirconia and alumina-zirconia composite ceramics, pp. 77-138 in Caruta B.M. (ed.): New Developments in Materials Science Research. Nova Science, New York 2007. (ISBN 1-59454-854-4).

A - Pabst W., Hostaša J.: Thermal conductivity of ceramics - from monolithic to multiphase, from dense to porous, from micro to nano, pp. 1-112 in Wythers M.C. (ed.): Advances in Materials Science Research. Nova Science, New York 2011. (ISBN 978-1-61209-821-0).

Last update: Pabst Willi (01.08.2013)
Syllabus -

1. Raw materials and their characterization

2. Shaping

3. Drying and binder removal

4. Firing and sintering

5. Microstructure and properties

6. Silicate ceramics

7. Refractories

8. Oxide ceramics

9. Non-oxide ceramics

10. Ceramic composites and functionally graded materials

11. Porous and cellular ceramics

12. Functional ceramics

13. Bioceramics and biomimetic processing

14. Nanomaterials and nanotechnology

Last update: Gregorová Eva (25.01.2007)
Learning resources -

Gregorová E., Pabst W.: Ceramic Technology - An Electronic Textbook. ICT Prague 2007 (accessible via http://vscht.cz/sil/keramika/index.hmtl).

Last update: Pabst Willi (01.08.2013)
Learning outcomes -

Students will be able to:

classify and explain in detail the different ceramic raw materials, ceramic processing steps (shaping, drying, firing etc.), ceramic microstructures and properties of ceramic materials in general and in particular for the individual classes of ceramic materials grouped according to chemical criteria (oxide, non-oxide, silicate), microstructure (composites, porous / cellular ceramics, nanoceramics) and applications (refractories, functional and bioceramics). In this course the students will gain a self-contained and detailed base of knowledge necessary for work in the research and development of ceramic materials and processes.

Last update: Pabst Willi (01.08.2013)
Registration requirements -

Inorganic non-metallic materials

Last update: Pabst Willi (01.08.2013)
Teaching methods
Activity Credits Hours
Účast na přednáškách 2 56
Příprava na přednášky, semináře, laboratoře, exkurzi nebo praxi 2 56
Příprava na zkoušku a její absolvování 2.5 70
Účast na seminářích 0.5 14
7 / 7 196 / 196
Coursework assessment
Form Significance
Continuous assessment of study performance and course -credit tests 60
Oral examination 40

 
VŠCHT Praha