Andriani, G.F., Germinario, L., 2014. Thermal decay of carbonate dimension stones: fabric, physical and mechanical changes, Environmental Earth Sciences, 72: 2523-2539.
Anon, 1979. Classification of rocks and soils for engineering geological mapping. part 1: Rock and soil materials, Bulletin of Engineering Geology and the Environment, 19: 355-371.
ASTM., 1994. Annual book of ASTM standards, soil and rock, building stones, Sect. 4, construction.
Azimian, A., Ajalloeian, R., 2015. Empirical correlation of physical and properties of marly rocks with p wave velocity, Arabian Journal of Geosciences, 8(4): 2069-2079.
Benavente, D., Martínez-Martínez, J., Jáuregui, P., Rodríguez, M.A., García-del-Cura, M.A., 2006. Assessment of the strength of building rocks using signal processing procedures, Construction and Building Materials, 20: 562-568.
Benavente, D., Pla, C., Cueto, N., Galvañ, S., Martínez-Martínez, J., García-del-Cura, M.A., Ordóñez, S., 2015. Predicting water permeability in sedimentary rocks from capillary imbibition and pore structure, Engineering Geology, 195: 301-311.
Bieniawski, Z.T., 1989. Engineering rock mass classifications: a complete manual for engineers and geologists in mining, civil, and petroleum engineering: New York, Wiley, xii, 251 p. p.
De Kock, T., Turmel, A., Fronteau, G., Cnudde, V., 2017. Rock fabric heterogeneity and its influence on the petrophysical properties of a building limestone: Lede stone (Belgium) as an example, Engineering Geolology, 216: 31-41.
Franklin, J.A., Chandra, R., 1972. The slake-durability test, International Journal of Rock Mechanics and Mining Sciences, 9: 325-341.
Gamble, J.C., 1971. Durability-plasticity classification of shale and other argillaceous rocks. PhD theses, University of Illinois.
Ghafoori, M., Rastegarnia, A., Lashkaripour, GM., 2018. Estimation of static parameters based on dynamical and physical properties in limestone rocks,
Journal of African Earth Sciences, 137: 22-31.
Gökceoğlu, C., Ulusay, R.,
Sönmez, H., 2000. Factors affecting the durability of selected weak and clay-bearing rocks from Turkey, with particular emphasis on the influence of the number of drying and wetting cycles, Engineering Geology, 57: 215-237.
Hashemi, M., Bashiri Goudarzi M., Jamshidi, A., 2018. Experimental investigation on the performance of Schmidt hammer test in durability assessment of carbonate building stones against freeze–thaw weathering, Environmental Earth Sciences, 77:684.
ISRM., 1981. Rock characterization, testing, and monitoring, ISRM suggested methods. Pergamon Press, Oxford.
Jamshidi, A., Nikudel, M.R., Khamehchiyan. M., Zarei Sahamieh, R., Abdi, Y., 2016. A correlation between P-wave velocity and Schmidt hardness with mechanical properties of travertine building stones, Arabian Journal of Geosciences, 9: 568.
Karakul, H., Ulusay, R., 2013. Empirical correlations for predicting strength properties of rocks from P-wave velocity under different degrees of saturation, Rock Mechanics and Rock Engineering, 46 (5): 981-999.
Loubser, M., 2013. Weathering of basalt and sandstone by wetting and drying: A process isolation study, Geografiska Annaler: Series A, Physical Geography, 95: 295-304.
Martínez-Martínez, J., Benavente, D., García-del-Cura, M.A., 2011. Spatial attenuation: The most sensitive ultrasonic parameter for detecting petrographic features and decay processes in carbonate rocks, Engineering Geology, 119: 84-95.
Martínez-Martínez, J., Benavente, D., García-del-Cura, M.A., 2012. Comparison of the static and dynamic elastic modulus in carbonate rocks, Bulletin of Engineering Geology and the Environment, 71: 263-268.
Martínez-Martínez, J., Benavente, D., Gomez-Heras, M., Marco-Castaño, L., García-del-Cura, M.A., 2013. Non-linear decay of building stones during freeze–thaw weathering processes, Construction and Building Materials, 38: 443-454.
Pappalardo, G., 2015. Correlation between P-wave velocity and physical–mechanical properties of intensely jointed dolostones, Peloritani Mounts, NE Sicily, Rock Mechanics and Rock Engineering, 48 (4): 1711-1721.
Ruedrich, J., Kirchner, D., Siegesmund, S., 2011. Physical weathering of building stones induced by freeze–thaw action: a laboratory long-term study, Environmental Earth Sciences, 63: 1573-1586.
Vasanelli, E., Colangiuli, D., Calia, A., Sileo, M., Aiello, M.A., 2015. Ultrasonic pulse velocity for the evaluation of physical and mechanical properties of a highly porous building limestone, Ultrasonics, 60: 33-40.
Vazquez, P., Alonso, F.J., Carrizo, L., Molina, E., Cultrone, G., Blanco, M., Zamora, I., 2013. Evaluation of the petrophysical properties of sedimentary building stones in order to establish quality criteria, Construction and Building Materials, 41: 868-878.
Villarraga, C.J., Gasc-Barbierb, M.,
Vaunata, J.,
Darrozesc, J., 2018. The effect of thermal cycles on limestone mechanical degradation,
International Journal of Rock Mechanics and Mining Sciences,
109: 115-123.
Wang, P., Xu, J., Fang, X., Wang, P., Zheng, G., Wen, M., 2017. Ultrasonic time-frequency method to evaluate the deterioration properties of rock suffered from freeze-thaw weathering, Cold Regions Science and Technology, 143: 13-22.