Issue 48

V. P. Berardi et alii, Frattura ed Integrità Strutturale, 48 (2019) 222-229; DOI: 10.3221/IGF-ESIS.48.23 229 [16] Lepore, M.A., Perrella, M., (2017). From test data to FE code: A straightforward strategy for modelling the structural bonding interface, Frattura ed Integrità Strutturale, 11(39), pp. 191-201. [17] Perrella, M., Berardi, V.P., Cricri, G., (2017). Mode II fracture behaviour of adhesively bonded reinforcements, in AIMETA 2017 - Proceedings of the 23rd Conference of the Italian Association of Theoretical and Applied Mechanics, 2, pp. 1824-1832. [18] Perrella, M., Berardi, V.P., Cricrì, G., (2018). A novel methodology for shear cohesive law identification of bonded reinforcements, Composites Part B: Engineering, 144, pp. 126-133. [19] Orefice, A., Mancusi, G., Berardi, V.P., Feo, L., Zuccaro, G., (2018). Residual stiffness of bonded joints for fibre- reinforced polymer profiles, Composites Part B: Engineering, 144, pp. 237-253. [20] Cricrì, G., (2018). Cohesive law identification of adhesive layers subject to shear load – An exact inverse solution, International Journal of Solids and Structures, 12, pp. 492-498. [21] Mazzotti, A., Savoia, M., Ferracuti, B., (2009). A new single-shear set-up for stable debonding of FRP–concrete joints, Construction and Building Materials, 23, pp. 1529–1537. [22] Bencardino, F., Condello, A., Ashour, A.F., (2017), Single-lap shear bond tests on Steel Reinforced Geopolymeric Matrix-concrete joints, Composites Part B: Engineering, 110, pp. 62-71. [23] De Santis, S., Ceroni, F., de Felice, G., Fagone, M., Ghiassi, B., Kwiecień, A., Lignola, G.P., Morganti, M., Santandrea, M., Valluzzi, M.R., Viskovic. A., (2017). Round Robin Test on tensile and bond behaviour of Steel Reinforced Grout systems, Composites Part B: Engineering, 127, pp. 100-120. [24] Ali-Ahmad, M., Subramaniam, K., Ghosn, M., (2006). Experimental investigation and fracture analysis of debonding between concrete and FRP sheets, Journal of Engineering Mechanics, 132(9), pp. 914-923. [25] Carloni, C., Subramaniam, K.V., (2010). Direct determination of cohesive stress transfer during debonding of FRP from concrete, Composite Structures, 93(1), pp. 184-192. [26] Carozzi, F.G., Colombi, P., Poggi, C., (2015). Calibration of end-debonding strength model for FRP-reinforced masonry, Composite Structures, 120, pp. 366-377. [27] Napoli, A., de Felice, G., De Santis, S., Realfonzo, R., (2016). Bond behaviour of Steel Reinforced Polymer strengthening systems, Composite Structures, 152, pp. 499-515. [28] Carloni, A., Santandrea, M., Imohamed, I.A.O., (2017). Determination of the interfacial properties of SRP strips bonded to concrete and comparison between single-lap and notched beam tests, Engineering Fracture Mechanics, 186, pp. 80- 104. [29] Pohoryles, D.A., Melo, J., Rossetto, T., Fabian, M., McCague, C., Stavrianaki, K., Lishman, B., Sargeant, B., (2017). Use of DIC and AE for Monitoring Effective Strain and Debonding in FRP and FRCM-Retrofitted RC Beams, Journal of Composites for Construction, 21(1). [30] Ghorbani, M., Mostofinejad, D., Hosseini, A., (2017). Bond Behavior of CFRP Sheets Attached to Concrete through EBR and EBROG Joints Subject to Mixed-Mode I/II Loading, Journal of Composites for Construction, 21(5). [31] Bilotta, A., Ceroni, F., Lignola, G.P., Prota, A., (2017). Use of DIC technique for investigating the behaviour of FRCM materials for strengthening masonry elements, Composites Part B: Engineering, 129, pp. 251-270. [32] Tekieli, M., De Santis, S., de Felice, G., Kwiecien´, A., Roscini, F., (2017). Application of Digital Image Correlation to composite reinforcements testing, Composite Structures, 160, pp. 670-688. [33] Babler, J., Adair, B., Antoniou, A., (2015). Ncorr: Open-Source 2d Digital Image Correlation Matlab Software, Experimental Mechanics, 55, pp. 1105-1122. [34] Calì, C., Cricrì, G., Perrella, M., (2010). An Advanced Creep Model for Hardening and Damage Effects, Strain, 46, pp. 347–357. [35] Ascione, L., Berardi, V.P., D’Aponte, A., (2011). A viscoelastic constitutive law for FRP materials, International Journal of Computational Methods in Engineering Science and Mechanics, 12(5), pp. 225-232. [36] Ascione, L., Berardi, V.P., D’Aponte, A., (2012). Creep phenomena in FRP materials, Mechanics Research Communications, 43, pp. 15-21. [37] Mancusi, G., Spadea, S., Berardi, V.P., (2013). Experimental analysis on the time-dependent bonding of FRP laminates under sustained loads, Composites Part B: Engineering, 46, pp. 116-122. [38] Berardi, V.P., Perrella, M., Feo, L., Cricrì, G., (2017). Creep behavior of GFRP laminates and their phases: Experimental investigation and analytical modelling, Composites Part B: Engineering, 122, pp. 136-144. [39] Berardi, V.P., Feo, L., Mancusi, G., De Piano, M., (2018). Influence of reinforcement viscous properties on reliability of existing structures strengthened with externally bonded composites, Composite Structures, 200, pp. 532-539.