[1. MIHÁLIKOVÁ, M., 2013. Introduction to Materials Engineering. Košice, 2013. 77 p. ISBN 978-80-553-1479-2]Search in Google Scholar
[2. LABAŠ, V., MINÁRIK, S., LABAŠOVÁ, E., SLABECYUS, J., ČERNECKÝ, J., 2011. Determination of mechanical properties of material using holographic interferometry and FEM analysis. In: XXIV Didmattech 2011, p. 55-62. ISBN 978-83-7271-679-8]Search in Google Scholar
[3. ASTM E1876-09, Standard test method for dynamic young's modulus, shear modulus and poisson's ratio by impulse excitation of vibration, ASTM International, West Conshohocken, PA, 2009.]Search in Google Scholar
[4. KUBLIHA, M., LABAŠ, V., MINÁRIK, S., KAŠŠÁKOVÁ, V., BOŠÁK, O., 2006. Methodology technical experiment. Trnava, 110 p. ISBN 978-80-8096-005-6]Search in Google Scholar
[5. JANÍČEK, P., ONDRÁČEK, E., VRBKA, J., 1992. Solid Mechanics, Elasticity and Strength I. Brno: VUT, 287 p. ISBN 80-214-0468-X]Search in Google Scholar
[6. GERE, J. M., GOODNO, B. J., 2009. Mechanics of Materials. Seventh Edition. Quebecor World, USA.]Search in Google Scholar
[7. MURČINGOVÁ, Z., 2013. Elasticity and Strength I. Theory and Examples. Košice: Technická univerzita.]Search in Google Scholar
[8. LABAŠOVÁ, E., ĎURIŠ, R., LABAŠ, V., 2016. Determining of shear modulus for the samples circular and hollow circular cross-section. In: Materials Science Forum. Novel Trends in Production Devices and Systems III. Special topic volume with invited peer reviewed papers only, Vol. 862. pp. 298-304. ISSN 0255-547610.4028/www.scientific.net/MSF.862.298]Search in Google Scholar
[9. VLK, M., HOUFEK, L., HLAVOŇ, P., KREJČÍ, P., KOTEK, V., KLEMENT, J., 2003. Experimental mechanics. Brno, 147 p. Information on [1.12.2016] http://ean2011.fme.vutbr.cz/img/fckeditor/file/opory/Experimentalni_mechanika.pdf]Search in Google Scholar
[10. Quantum X, Operating manual, Information on [1.12.2016] http://www.hbm.com.pl/pdf/i3031.pdf]Search in Google Scholar