Issue34

J. Saliba et alii, Frattura ed Integrità Strutturale, 34 (2015) 300-308; DOI: 10.3221/IGF-ESIS.34.32 308 [12] Saliba, J., Loukili, A., Grondin, F., Regoin, J.-P., Identification of damage mechanisms in concrete under high level creep by the acoustic emission technique, Materials and structures, 47 (2014) 1041-1053. [13] Zhang, D., Wu, K., Fracture process zone of notched three-point bending concrete beams, Cement and Concrete Research, 29 (1999) 1887-1892. [14] Labuz, J.F., Cattaneo, S., Chen, L., Acoustic emission at failure in quasi-brittle materials, Construction and building Materials, 15 (2001) 225-233. [15] Hadjab, H.S., Thimus, J.F., Chabaat, M., The use of acoustic emission to investigate fracture process zone in notched concrete beams, Current Science, 93 (2007) 648-653. [16] Grégoire, D., Rojas-Solano, L.B., Pijaudier-Cabot, G., Failure and size effect for notched and unnotched concrete beams. International Journal of Numerical and Analytical Methods in Geomechanics, 37 (2013) 1434-1452. [17] Grégoire, D., Verdon, L., Lefort, V., Grassl, P., Saliba, J., Regoin, J.P., Loukili, A., Pijaudier-Cabot, G., Mesoscale analysis of failure in quasi-brittle materials: comparison between lattice model and acoustic emission data, International Journal of Numerical and Analytical Methods in Geomechanics, (2015), DOI 10.1002.nag.2363. [18] RILEM TC212-ACD recommendation, Acoustic emission and related NDE techniques for crack detection and damage evaluation in concrete, Materials and Structures, 43 (2010) 1177-1181. [19] Muralidhara, S., Raghu Prasad, B.K., Eskandari, H., Karihaloo, B., Fracture process zone size and true fracture energy of concrete using acoustic emission, Construction and Building Materials, 24 (2010) 479-486. [20] Lertsrisakulrat, T., Watanabe, K., Matsuo, M., Niwa, J., Experimental study on parameters in localization of concrete subjected to compression, J.Materials Conc. Struc., Pavements, JSCE, 50 (2001) 309-321. [21] Watanabe, K., Niwa, J., Iwanami, M., Yokota, H., Localized failure of concrete in compression identified by AE method, Construction and Building Materials, 18 (2003) 189-196. [22] Karihaloo, BL, Abdalla, HM, Imjai, T., A simple method for determining the true specific fracture energy of concrete, Mag Concrete Research, 55 (2003) 471–481. [23] Duan, K, Hu, X, Wittmann, F.H., Boundary effect on concrete fracture and non-constant fracture energy distribution, Engineering Fracture Mechanics, 70 (2003) 2257–2268. [24] Hu, X, Duan, K., Influence of fracture process zone height on fracture energy of concrete, Cement Concrete Research, 34 (2004) 1321–1330. [25] Duan, K, Hu, X, Wittmann, F.H., Size effect on specific fracture energy of concrete, Engineering Fracture Mechanics, 74 (2007) 87–96. [26] Muralidhara, S., Raghu Prasad, B.K., Karihaloo, B.L., Singh, R.K., Size-independent fracture energy in plain concrete beams using tri-linear model, Construction and Building Materials, 25 (2011) 3051-3058. [27] Alam, S.Y., Saliba, J., Loukili, A., Fracture examination in concrete through combined digital image correlation and acoustic emission techniques, Construction and Building Materials, 69 (2014) 232–242.