Experimental methods of study of physical behavior of geomaterials

Experimental methods of study of physical behavior of geomaterials
224-0946/01
čeština Experimental methods of study of physical behavior of geomaterials
224-0946/02
angličtina

Cíle předmětu

The course is focused on presentation of modern techniques of study of physical properties of geomaterials and their behavior in selected model conditions. Emphasis is placed mainly on mechanical properties and deformation response of studied materials in relation to their composition and structure or other physical characteristics. Student will get an overview of used physical methods and experimental techniques. They will acquire theoretical knowledge related to the design and preparation of mechanical tests of materials as well as special triaxial experiments. The graduate will acquire skills in analyzing experimental data from such experiments based on physical models. The acquired theoretical knowledge and analytical skills will be complemented by an appropriate form (actively or passively) within experiments carried out in the laboratories of the Institute of Geonics, AS CR.

Povinná literatura

Hudson, John A., and John P. Harrison. Engineering rock mechanics: an introduction to the principles. Elsevier, 2000.
True triaxial testing of rocks, (book) Editor M. Kwasniewski, CRC Press/Balkema, Leiden, 2012
P.A. Kelly, Solid mechanics I-IV (e-book) http://homepages.engineering.auckland.ac.nz/~pkel015/SolidMechanicsBooks/index.html
L. Vavro, Lomová houževnatost hornin a její zjišťování pro geomechanické hodnocení hornin a horninového masívu, Disertace, VŠB – TU, FAST, Ostrava 2014
Stuart, B. H., Infrared Spectroscopy: Fundamentals and Applications. John Wiley & Sons, 2004
Handbook of Thermal Analysis, ed. Hatakeyama, T., Zhenhai Liu, John Wiley & Sons, Chichester, 1998.

Doporučená literatura

Kim M.M., Ko H.Y. Multistage triaxial testing of rocks. Geotech Test J 1979;2:98–105.
Hoek E. Estimating Mohr–Coulomb friction and cohesion values from the
Hoek–Brown failure criterion. IntJ Rock Mech MinSci1990;27:227–9.
J.B. Walsh, The effect of Cracks on the Compressibility of Rocks, Journal of Geophysical Research 70 (2) (1965) 381–389.
The ISRM Suggested Methods for Rock Characterization, Testing and Monitoring: 2007-2014, editor R.Ullusay
J.B. Walsh, The effect of Cracks on the Uniaxial Elastic Compression of Rocks, Journal of Geophysical Research 70 (2) (1965) 399–411.
J.B. Walsh, The effect of Cracks in Rocks on Poisson’s Ratio, Journal of Geophysical Research 70 (20) (1965) 5249–5257.
B.N.Whittaker, R.N.Singht and G.Sun, Rock fracture Mechanics – Principle , design and applications. Developments in geotechnical Engineering, 71, Elsevier, Amsterdam – London - New Yourk – Tokyo, 1992
Larkin, J. P. Infrared and Raman Spectroscopy – Principles and Spectral interpretation. Elsevier. Croydon, 2011.
Principles and Apllications of Thermal analysis, ed. Gabbott, P., Blackwell Publishing Ltd., Oxford 2008.
Ramachandran, V. S., Paroli, R. M., Beaudoin, J.J. Delgado, A. H. Thermal Analysis of Construstion Materials, Noyes Publication/ William Andrew Publishing, Norwich, 2003.

zpět na vyhledávání

Language of instruction	čeština, angličtina
Code	224-0946
Abbreviation	EMSFCG
Course title	Experimental methods of study of physical behavior of geomaterials
Coordinating department	Department of Geotechnics and Underground Engineering
Course coordinator	doc. Ing. Ivan Janeček, CSc.