1]. Ghosh, P. and Q. Tran, Correlation between bulk and surface resistivity of concrete. International Journal of Concrete Structures and Materials, 2015. 9(1): p. 119-132.
[2]. Christensen, B.J., et al., Impedance spectroscopy of hydrating cement‐based materials: measurement, interpretation, and application. Journal of the American Ceramic Society, 1994. 77(11): p. 2789-2804.
[3]. Julio-Betancourt, G. and R. Hooton, Study of the Joule effect on rapid chloride permeability values and evaluation of related electrical properties of concretes. Cement and concrete research, 2004. 34(6): p. 1007-1015.
[4]. FDOT, F., FM 5-578: Florida method of test for concrete resistivity as an electrical indicator of its permeability. Florida Department of Transportation, 2004.
[5]. Kessler, R.J., R.G. Powers, and M.P. Mario Paredes. Resistivity measurements of water saturated concrete as an indicator of permeability. in CORROSION 2005. 2005. OnePetro.
[6]. Tikalsky, P., et al., Development of performance properties of ternary mixtures: laboratory study on concrete. 2011, Iowa State University. National Concrete Pavement Technology Center.
[7]. Marriaga, J., P. Claisse, and E. Ganjian. Application of traditional techniques on chloride resistance assessment of GGBS concrete. in Proceedings of Second International Conference on Sustainable Construction Materials and Technologies. 2010.
[8]. Icenogle, P.J. and T.D. Rupnow, Development of precision statement for concrete surface resistivity. Transportation research record, 2012. 2290(1): p. 38-43.
[9]. Lim, D.T., et al., Evaluation of high performance concrete using electrical resistivity technique. Proceedings of the Our World in Concrete and Structures, 2011.
[10]. Newlands, M.D., et al., Sensitivity of electrode contact solutions and contact pressure in assessing electrical resistivity of concrete. Materials and structures, 2008. 41(4): p. 621-632.
[11]. Spragg, R.P., et al., Variability analysis of the bulk resistivity measured using concrete cylinders. Advances in Civil Engineering Materials, 2012. 1(1): p. 1-17.
[12]. Elkey, W. and E.J. Sellevold, Electrical resistivity of concrete. 1995.
[13]. AASHTO, Standard Method of Test for Surface Resistivity Indication of Concrete’s Ability to Resist Chloride Ion Penetration. 2015, AASHTO USA.
[14]. Li, Z., X. Wei, and W. Li, Preliminary interpretation of Portland cement hydration process using resistivity measurements. Materials Journal, 2003. 100(3): p. 253-257.
[15]. Poppe, A.-M. and G. De Schutter, Cement hydration in the presence of high filler contents. Cement and Concrete Research, 2005. 35(12): p. 2290-2299.
[16]. Ben-Bassat, M., P. Nixon, and J. Hardcastlet, The effect of differences in the composition of Portland cement on the properties of hardened concrete. Magazine of Concrete Research, 1990. 42(151): p. 59-66.