Ultrasonic velocity as a tool for mechanical and physical parameters prediction within carbonate rocks |
Abdelhedi, Mohamed
(Universite de Sfax Faculte des Sciences de Sfax, Route de Soukra, Departement des Sciences de la Terre)
Aloui, Monia (Universite de Sfax Faculte des Sciences de Sfax, Route de Soukra, Departement des Sciences de la Terre) Mnif, Thameur (Universite de Sfax Faculte des Sciences de Sfax, Route de Soukra, Departement des Sciences de la Terre) Abbes, Chedly (Universite de Sfax Faculte des Sciences de Sfax, Route de Soukra, Departement des Sciences de la Terre) |
1 | Popovics, S., Rose, J.L. and Popovics, J.S. (1990), "The behaviour of ultrasonic pulses in concrete", Cem. Concr. Res., 20(2), 259-270. DOI |
2 | Shariati, M., Ramli-Sulong, N.H., KH, M.M.A., Shafigh, P. and Sinaei, H. (2011), "Assessing the strength of reinforced concrete structures through ultrasonic pulse velocity and Schmidt rebound hammer tests", Sci. Res. Essays, 6(1), 213-220. |
3 | Vasconcelos, G., Lourenco, P.B., Alves, C.A.S. and Pamplona, J. (2008), "Ultrasonic evaluation of the physical and mechanical properties of granites", Ultrasonics, 48(5), 453-466. DOI |
4 | Vergara, L., Miralles, R., Gosalbez, J., Juanes, F.J., Ullate, L.G., Anaya, J.J., Hernandez, M.G. and Izquierdo, M.A.G. (2001), "NDE ultrasonic methods to characterise the porosity of mortar", NDT&E INT, 34(8), 557-562. DOI |
5 | Yasar, E. and Erdogan, Y. (2004), "Correlating sound velocity with the density, compressive strength and Young's modulus of carbonate rocks", Int. J. Rock Mech. Min. Sci, 41(5), 871-875. DOI |
6 | Calvo, J.P. and Regueiro, M. (2010), "Carbonate rocks in the Mediterranean region-from classical to innovative uses of building stone", Geol. Soc. London Spec. Publ., 331(1), 27-35. DOI |
7 | Chen, X., Schmitt, D.R., Kessler, J.A., Evans, J. and Kofman, R. (2015), "Empirical relations between ultrasonic P-wave velocity, porosity and Uniaxial Compressive Strength", CSEG Rec., 40(5), 24-29. |
8 | Couvreur, J.F., Vervoort, A., King, M.S., Lousberg, E. and Thimus, J.F. (2001), "Successive cracking steps of a limestone highlighted by ultrasonic wave propagation", Geophys. Prpspect., 49(1), 71-78. DOI |
9 | Del Rio, L.M., Jimenez, A., Lopez, F., Rosa, F.J., Rufo, M.M. and Paniagua, J.M. (2004), "Characterization and hardening of concrete with ultrasonic testing", Ultrasonics, 42(1), 527-530. DOI |
10 | Eberli, G.P., Baechle, G.T., Anselmetti, F.S. and Incze, M.L. (2003), "Factors controlling elastic properties in carbonate sediments and rocks", Leading Edge, 22(7), 654-660. DOI |
11 | Hall, K.S. and Popovics, J.S. (2016), "Air-coupled Ultrasonic tomography of solids: 1 Fundamental development", Smart. Struct. Syst., Int. J., 17(1), 17-29. DOI |
12 | Hernandez, M.G., Anaya, J.J., Izquierdo, M.A.G. and Ullate, L.G. (2002), "Application of micromechanics to the characterization of mortar by ultrasound", Ultrasonics, 40(1), 217-221. DOI |
13 | Irfan, T.Y. (1996), "Mineralogy, fabric properties and classification of weathered granites in Hong Kong", Q. J. Eng. Geol. Hydrogeol, 29(1), 5-35. DOI |
14 | Kurtulus, C., Bozkurt, A. and Endes, H. (2012), "Physical and mechanical properties of serpentinized ultrabasic rocks in NW Turkey", Pure Appl. Geophys., 169(7), 1205-1215. DOI |
15 | Lafhaj, Z. and Goueygou, M. (2009), "Experimental study on sound and damaged mortar: Variation of ultrasonic parameters with porosity", Constr. Build Mater., 23(2), 953-958. DOI |
16 | Madhubabu, N., Singh, P.K., Kainthola, A., Mahanta, B., Tripathy, A. and Singh, T.N. (2016), "Prediction of compressive strength and elastic modulus of carbonate rocks", Measurement, 88, 202-213. DOI |
17 | Lafhaj, Z., Goueygou, M., Djerbi, A. and Kaczmarek, M. (2006), "Correlation between porosity, permeability and ultrasonic parameters of mortar with variable water/cement ratio and water content", Cem. Concr. Res, 36(4), 625-633. DOI |
18 | Lai, G.T., Rafek, A.G., Serasa, A.S., Hussin, A. and Ern, L.K. (2016), "Use of ultrasonic velocity travel time to estimate uniaxial compressive strength of granite and schist in Malaysia", Ssains Malays., 45(2), 185-193. |
19 | Lotfi, H., Faiz, B., Moudden, A., Izbaim, D., Menou, A. and Maze, G. (2010), "Characterization of mortars with ultrasonic transducer", MJ Condensed Matter, 12(2), 131-133. |
20 | Maev, R.G. (2008), Acoustic Microscopy: Fundamentals and Applications, John Wiley & Sons, Betz-Druck GmbH, Weinheim, Germany. |
21 | Nicolas, A., Fortin, J., Regnet, J.B., Dimanov, A. and Gueguen, Y. (2016), "Brittle and semi-brittle behaviours of a carbonate rock: influence of water and temperature", Geophys. J. Int., 206(3), 438-456. DOI |
22 | Ongpeng, J., Soberano, M., Oreta, A. and Hirose, S. (2017), "Artificial neural network model using Ultrasonic test results to predict compressive stress in concrete", Comput. Concrete, Int. J., 19(1), 59-68. DOI |
23 | Peng, S. and Zhang, J. (2007), Engineering Geology for Underground Rocks, Springer Science & Business Media, Deblik, Berlin, Germany. |
24 | Popovics, S. and Popovics, J.S. (1991), "Effect of stresses on the ultrasonic pulse velocity in concrete", Mat. Struct., 24(1), 15-23. DOI |