PSI - Issue 28

Dimos Triantis et al. / Procedia Structural Integrity 28 (2020) 502–510 D. Triantis, I. Stavrakas, A. Kyriazopoulos, E. D. Pasiou, S. K. Kourkoulis / Structural Integrity Procedia 00 (2019) 000–000 9

510

Frontiers of Structural and Civil Engineering 13(4), 767–786. Slifkin, L., 1993. Seismic electric signals from displacement of charged dislocations. Tectonophysics 224, 149–152. Smith, D.M., 1991. Mechanical properties of mass concrete at early ages. Army Engineer Waterways Experiment Station Vicksburg Ms Structures Lab. No. WES/TR/SL-91-14. Stavrakas, I., Anastasiadis, C., Triantis, D., Vallianatos, F., 2003. Piezo Stimulated currents in marble samples: precursory and concurrent – with – failure signals. Natural Hazards and Earth System Science 3, 243–247. Stepanov, A.W., 1933. Über den Mechanismus der plastischen Deformation. Physics Zeitschrift Soviet Union 4, 609-627. Stergiopoulos, C., Stavrakas, I., Hloupis, G., Triantis, D., Vallianatos, F., 2013. Electrical and acoustic emissions in cement mortar beams subjected to mechanical loading up to fracture. Engineering Failure Analysis 35, 454–461. Topkaya, C., Yura, J.A., Williamson, E.B., 2004. Composite shear stud strength at early concrete ages. Journal of Structural Engineering 130(6), 952–960. Triantis, D., Anastasiadis, C., Vallianatos, F., Kyriazis, P., Nover, G., 2007. Electric signal emissions during repeated abrupt uniaxial compressional stress steps in amphibolite from KTB drilling. Natural Hazards and Earth System Science 7, 149–154. Triantis, D., Kourkoulis, S.K., 2018. An alternative approach for representing the data provided by the acoustic emission technique. Rock Mechanics and Rock Engineering 51, 2433–2438. Triantis, D., Pasiou, E.D., Stavrakas, I., Kourkoulis, S.K., 2020b. Hidden affinities between electric and acoustic activity in brittle materials at near fracture load levels. Rock Mechanics and Rock Engineering, Submitted March 2020. Triantis, D., Stavrakas, I., Anastasiadis, C., Kyriazopoulos, A., Vallianatos, F., 2006. An analysis of pressure stimulated currents (PSC), in marble samples under mechanical stress. Physics and Chemistry of the Earth 31, 234–239. Triantis, D., Stavrakas, I., Pasiou, E.D., Hloupis, G., Kourkoulis, S.K., 2015. Innovative experimental techniques in the service of restoration of stone monuments - Part II: Marble epistyles under shear. Procedia Engineering 109, 276–284. Triantis, D., Tsaousi, D.K., Stavrakas, I., Pasiou, E.D., Douvis, P., Kourkoulis S.K., 2020a. Electric and acoustic activity in notched fiber-reinforced concrete beams under three-point bending. Materials Today: Proceedings, Available online 21 April 2020. Turcotte, D.L., Shcherbakov, R., 2006. Can damage mechanics explain temporal scaling laws in brittle fracture and seismicity? Pure and Applied Physics 163, 1031–1045. Vallianatos, F., Triantis, D., Tzanis, A., Anastasiadis, C., Stavrakas, I., 2004. Electric earthquake precursors: from laboratory results to field observations. Physics and Chemistry of the Earth 29, 339–351. Vallianatos, F., Triantis, D., 2008. Scaling in Pressure Stimulated Currents related with rock fracture. Physica A 387, 4940-4946. Vallianatos, F., Tzanis, A., 1999. A model for the generation of precursory electric and magnetic fields associated with the deformation rate of the earthquake focus. In Hayakawa, M. (Ed.), Atmospheric and Ionospheric electromagnetic phenomena associated with Earthquakes. Terra Scientific Publishing Co, Tokyo, 287–305. Varotsos, P., Alexopoulos, K., 1986. Thermodynamics of point defects and their relation with bulk properties. Amsterdam, North-Holland. Voigt, T., Akkaya, Y., Shah, S.P., 2003. Determination of early age mortar and concrete strength by ultrasonic wave reflections. Journal of Materials in Civil Engineering 15(3), 247–254. Whitworth, R.W., 1975. Charged dislocations in ionic crystals Advances in Physics 24, 203–304.