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BATAYNEH. M. K. - IQBAL, M. – IBRAHIM, A.: Promoting the use of crumb rubber concrete in developing countries. Waste Management, Vol. 28, Issue 11, November 2008, pp.2171-2176.Search in Google Scholar
KARA DE MAEIJER, P. - CRAEYE, B. - BLOM, J. – BERVOETS, L.: Crumb rubber in concrete – the barriers for application in the construction industry. Innovative Solutions for Concrete Applications, 20 August 2021, pp. 213–238.Search in Google Scholar
KHALID B. - MATTHEW R.: Workability and mechanical properties of crumb-rubber concrete. Construction Materials, Vol. 166, Issue 1, February 2013, pp. 7-17.Search in Google Scholar
PARTH, K. - TAUSIF, K.: Experimental study of crumb rubber in concrete. GRD Journal for Engineering, Vol. 2, May, 2017, pp. 151–155.Search in Google Scholar
ABHAY, K. - SALINI, Y.: Use of crumb rubber as fine aggregate in concrete to increase the strength of concrete block. Journal of Emerging Technologies and Innovative Research (JETIR), November 2017, Vol. 4, pp. 150–155.Search in Google Scholar
SABIR, K. - AKANKSHA, S.: Behavior of crumb rubber concrete. International Journal of Research in Engineering, IT and Social Sciences, Vol. 145, February 2018, pp. 86–92.Search in Google Scholar
ROMAN, C. - TOMÁŠ, T. - JOSEF, F. - PETR, B.: Mechanical properties and durability of crumb rubber concrete. IOP Conf. Series: Materials Science and Engineering, 236, 2017, 012093.Search in Google Scholar
YANG, H. - ZHISHUAN, L. - YAQIANG, B - GUOQI, H. - DONGQIAO, L: Experimental study on the mechanical properties of crumb rubber concrete after elevated temperature. Polymers. 2023, 15, 3102. https://doi.org/10.3390/polym15143102.Search in Google Scholar
OBAIDAT, Y. L. - HEYDEN, S. L. - DAHLBLOM, O. L. - ABU-FARSAKH, G. - ABDEL-JAWAD, Y.: Retrofitting of reinforced concrete beams using composite laminates. Construction and Building Materials, 25, No. 2, 2011, pp.591-597.Search in Google Scholar
CHAALLAL. O. - SHAHAWY, M.: Performance of fiber-reinforced polymer-wrapped reinforced concrete column under combined axial-flexural loading. ACI Structural Journal, 97, No. 4, 2000, pp. 659-668.Search in Google Scholar
PROTA, A. - TAN, K. Y. - NANNI, A. - PECCE, M. - MANFREDI, G.: Performance of shallow reinforced concrete beams with externally bonded steel-reinforced polymer. ACI Structural Journal, 103, No. 2, 2006, pp. 163-170.Search in Google Scholar
HASSAN, T. - RIZKALLA, S.: Flexural strengthening of prestressed bridge slabs with FRP systems. PCI JournaL, 47, No. 1, 2002, pp. 76-93.Search in Google Scholar
HASSAN, T.: Flexural performance and bond characteristics of FRP strengthening techniques for concrete structures. PhD. thesis, University of Manitoba, Winnipeg, Canada, 2002.Search in Google Scholar
YAHIYA, A. - TAYEL, M. - HEIZA, K. H.: Post-tensioned reinforced concrete beams strengthend with near surface mounted technique. 2018. https://www.researchgate.net/publication/333224510.Search in Google Scholar
ACI COMMITTEE 440: Design and construction of externally bonded FRP systems for strengthening concrete structures (ACI 440.2R-02), ACI Manual of concrete practice, American Concrete Institute, 2002.Search in Google Scholar
HASAN, M. A. - SHEEHAN, T. - ASHOUR, A. - ELKEZZA O.: Flexural behaviour of geopolymer concrete T-beams reinforced with GFRP bars. Structures, Vol. 94, 2023, pp. 345–364.Search in Google Scholar
MAJOR, M. - MAJOR, I. - KUCHÁROVÁ, D. - KULIŃSKI, K.: Reduction of dynamic impacts in block made of concrete – rubber composites. Civil and Environmental Engineering, Vol. 14, Issue 1, 2018, pp. 61–68.Search in Google Scholar
SHAHJALAL, M. D. - ISLAM, K. - AHMED, T. - RAQUIB, A. A.: Mechanical characterization of fiberreinforced rubberized recycled concrete-construction and building materials, Vol. 412, 19 January 2024, 134799.Search in Google Scholar
KARUNARATHNA, S. - LINFORTH, S. - KASHANI, A. - LIU, X. – NGO, T.: Effect of recycled rubber aggregate size on fracture and other mechanical properties of structural concrete. Journal of Cleaner Production, Vol. 314, 10 September 2021, 128230.Search in Google Scholar
SUCHARDA, O. - MATECKOVA, P. - BILEK, V.: Non-linear analysis of an RC beam without shear reinforcement with a sensitivity study of the material properties of concrete. Slovak Journal of Civil Engineering, Vol. 28, No. 1, 2020, pp. 33–43.Search in Google Scholar
VALAŠÍK, A. - BENKO, V. - STRAUSS, A. - TÄUBLING, B.: Reliability assessment of slender concrete columns at the stability failure, AIP Conference Proceedings, Vol. 1922, Art. No. 130010, 2018.Search in Google Scholar
STRAUSS, A. - BENKO, V. - TÄUBLING, B. - VALAŠÍK, A. - ČUHÁK, M.: Reliability of slender columns [Zuverlässigkeit schlanker betonstützen: bewertung des stabilitätsverhaltens]. Beton- und Stahlbetonbau, Vol. 112, No. 7,2017, pp. 392-401.Search in Google Scholar
WU, L. - CHUNG C. N. - MAJOR, Z. - LAURENT, A. - LUDOVIC, N.: From sem images to elastic responses: a stochastic multiscale analysis of ud fiber reinforced composites. Composite Structures, Vol. 189, 2018.Search in Google Scholar
KOZIELOVA, M. - MARCALIKOVA, Z. - MATECKOVA, P. - SUCHARDA, O.: Numerical analysis of reinforced concrete slab with subsoil. Civil and Environmental Engineering, Vol.16, No.1, 2020, pp.107-118.Search in Google Scholar
SAS IP, 1999.: ANSYS theory reference release 5.6, ANSYS, INC. CANONSBURG, Pennsylvania, USA.Search in Google Scholar
