Czech

Not applicable.

The structure and properties of advanced ceramic materials are explained to students in order to give them ability to follow current trends in ceramic technology.

The basic knowledge’s about silicate and ceramics technology are necessary.

Not applicable.

The course uses teaching methods in form of Lecture - 2 teaching hours per week. The e-learning system (LMS Moodle) is available to teachers and students.

Oral examination (15-20 min, without written preparation).

1) Introduction to the advanced ceramics
2) Processing powders for preparation of advanced ceramics I.: Sol-gel process
3) Processing powders for preparation of advanced ceramics II.: Precipitation methods
4) Processing powders for preparation of advanced ceramics III.: Spray pyrolysis, frizing method, gas-phase reaction, emulsion methods
5) Thermochemical methods
6) Mechanochemical reaction and methods
7) Properties of advanced ceramics I.
8) Properties of advanced ceramics II.
9) Preparation of single crystals
10) Ceramic fuel cells
11) Ceramics for electronics applications
12) Bioceramics
13) Intercalation of polymers in layered clay minerals

Not applicable.

The aim of the course is a professional entry into individual areas of advanced ceramic technology in relation to the functional properties and the influence of the raw material used and the preparation technique on these properties. The audience can thus orientate themselves in this rapidly developing area.

none

Not applicable.

Not applicable.

D. Segal, Chemical Synthesis of Advanced Ceramic Materials, 1991. ISBN: 0521424186. (CS)
F. Aldinger, V. A. Weberruss, Advanced Ceramics and Future Materials: An Introduction to Structures, Properties, Technologies, Methods, 2010. ISBN: 3527321578 (CS)
Hanykýř V., Havrda J.: Speciální technologie keramiky I. VŠCHT Praha, Praha 1991. (CS)
T.A. Ring, Fundamentals of ceramic powder processing and synthesis, 1996. ISBN: 0125889305. (CS)

S. Saitö, Advanced ceramics, 1988. ISBN: 0198563353. (CS)