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Materials for Extreme Applications

Summary

The material selection according the application, operating security and reliability evaluation. Evaluation of materials resistance against cleavage rapture. Structural steels for welded constructions, steels with higher yield strength, steels resistant against hydrogen embrittlement, materials for automotive industry, materials for hydrogen storage including structural metallurgical characteristics. Principles of corrosion resistance and heat-resistance, anti-corrosion and heat-resistant materials including the structural-metallurgical characteristics. Principles of creep. Creep materials and practical applications. High strength and harden-able steels. Technically important non-ferrous metals, structure and its relation to properties, practical applications.

Literature

[1] KRAUSS, G.: Strengthening mechanisms in steels. Encyklopedia of
Materials. Science and Technology, Elsevier Science Ltd., 2001.
[2] BHADESHIA, H.K.D.H.: Bainite in metals. The Inst. of Mater., London,1992.
[3] Briant, C.L., Banerji, S.K.: Treatise on Materials Science and Technology.
Academ. Press, N. York, 1983

Advised literature

[1] HEITZ, E., FLEMMING, H.C., SAND, W.: Microbially influenced corrosion
of materials. Springer-Verlag, Berlin, Heidelberg, 1996.
[2] http://sections.asme.org/nwhss/pwht/steel_Notes.pdf
[3] DURING, E.D.D.: Corrosion Atlas, vol. 1 – Carbon steels, vol. 2 –Stainless
Steels and nonferrous materials. Elsevier, Amsterdam, 1988


Language of instruction čeština, čeština
Code 636-0804
Abbreviation MNTA
Course title Materials for Extreme Applications
Coordinating department Department of Material Engineering
Course coordinator prof. Ing. Eva Mazancová, CSc.