Issue 38

I. N. Shardakov et alii, Frattura ed Integrità Strutturale, 38 (2016) 331-338; DOI: 10.3221/IGF-ESIS.38.43 338 [5] Parikh, K., Modhera, C.D., Application of GFRP on preloaded retrofitted beam for enhancement in flexural strength, International journal of civil and structural engineering, 2 (2012) 1070-1080. [6] Al-Salloum, Y.A., Flexural behavior of rc beams strengthened with FRP composite sheets subjected to different load cases, King Saud University, Saudi Arabia. http://faculty.ksu.edu.sa/ysalloum/Documents/My%20Papers/Flexure%20UK%202006.pdf. [7] Vavilov, V.P., Thermal/Infrared nondestructive testing, NDT Handbooks series, Moscow 5(2009). [8] Concu, G., De Nicolo, B., Piga, C., Trulli, N., Infrared thermography as a tool for quality control of FRP and FRCM application, Proceedings of the 6th International conference on FRP composites in civil engineering. – Rome, (2012). [9] Valluzzi, M.R., Grinzato, E., Pellegrino, C., Modena, C., IR thermography for interface analysis of FRP laminates externally bonded to RC beams, Materials and Structures, 42 (2009) 25-34. [10] Shirazi, А., Karbhar, V.M., Quantifying defects and progression of damage in FRP rehabilitation of concrete through IR thermography, Asia-Pacific Conference on FRP in Structures (APFIS 2007). International Institute for FRP in Construction, (2007). [11] Taillade, F., Quiertant, M., Benzarti, K., Dumoulin, J., Aubagnac, Ch., Nondestructive evaluation of FRP strengthening systems bonded on RC structures using pulsed stimulated infrared thermography, IFSTTAR, F-75015 Paris, (2012) 193-208. [12] Bykov, A., Matveenko, V., Serovaev, G., Shardakov, I., Shestakov, A., Determination of thermography modes for recording delamination between composite material and reinforced concrete structures, Solid State Phenomena, TTP, (2016) 97-104.