حبیبپور، ک.، صفری، ر.، 1388. راهنمای جامع کاربرد SPSS در تحقیقات پیمایشی (تحلیل دادههای کمی) “،چاپ دوم ، انتشارات لویهف متفکران، 861 صفحه.
مهدوی، م.، طاهرخانی، م.، 1383.کاربرد آمار در جغرافیا. چاپ اول، ، نشر قومس، تهران،420 صفحه.
Angeli, M., Bigas, J.P., Benavente, D., Menendez, B., Hebert, R., David, C., 2007. Salt crystallization in pores: quantification and estimation of damage.
Environmental Geology, 52: 205–213.
Angeli, M., Heber, R., Menendez, B., David, C., Bigas, J-P., 2010. Influence of temperature and salt concentration on the salt weathering of a sedimentary stone with sodium sulphate. Engineering Geology, 115: pp 193–199.
Anon, 1979. Classification of rocks and soils for engineering geological mapping: part 1: Rock and soil materials. Bulletin Association Engineering Geology, 19: 355–371.
Bayram, F., 2012. Predicting mechanical strength loss of natural stones after freeze-thaw in cold regions. Cold Regions Science and Technology, 83–84: 98–102.
Bell, F.G., 1993. Durability of carbonate rock as building stone with comments on its preservation. Environmental Geology, 21: 187–200.
Benavente, D., Garcia del Cura, M.A., Fort, R., Ordonez, S., 1999. Thermodynamic modeling of changes induced by salt pressure crystallization in porous media of stone. Journal of Crystal Growth, 204:168–178.
Benavente D, Garcia del Cura MA, Bernabeu A, Ordonez S., 2001. Quantification of salt weathering in porous stones using experimental continuous partial immersion method. Engineering Geology, 59: 313–25.
Benavente, D., García del Cura, M.A., Fort, R., Ordóñez, S., 2004. Durability estimation of porous building stones from pore structure and strength. Engineering Geology, 74: 113–127.
Benavente, D., Martinez, J., Cueto, N., Cura, M.A, 2007a. Salt weathering in dual-porosity building dolostones. Engineering Geology, 94: 215–226.
Benavente, D., Martinez-Martinez, J., Garcia del Cura, M.A., Can averas, M.A., 2007b. The influence of petrophysical properties on the salt weathering of porous building rocks. Environmental Geology, 52: 215–224.
Chen, T.C., Yeung, M.R., Mori, N., 2004. Effect of water saturation on deterioration of welded tuff due to freeze-thaw action. Cold Regions Science and Technology, 38: 127–136.
Cultrone, G.,
Luque, A.,
Sebastián, E., 2012. Petrophysical and durability tests on sedimentary stones to evaluate their quality as building materials. Quarterly Journal of Engineering Geology and Hydrogeology, 45: 415–422.
EN 12370, 1999. Natural stone test methods - Determination of resistance to salt crystallization. (FOREIGN STANDARD).
Ehrlich, R., Crabtree, S.J., Horkowitz, K.O., Horkowitz, J.P., 1991. Petrography and reservoir physics I, objective classification of reservoir porosity. AAPG Bulletin, 75: 1547–1562.
Flatt, R.J., 2002. Salt damage in porous materials: how high supersaturations are generated. Journal of Crystal Growth, 242: 435– 454.
Goudie, A.S., 1999a. A comparison of the relative resistance of limestones to frost and salt weathering. Permafrost and Periglacial Processes, 10, 309–316.
Goudie, A.S., 1999b. Experimental salt weathering of limestone in relation to rock properties”, Earth Surface Processes and Landforms, 24: 715– 724.
Hale, P.A., Shakoor, A., 2003. A laboratory investigation of the effects of cyclic heating and cooling, wetting and drying, and freezing and thawing on the compressive strength of selected sandstones. Environmental and Engineering Geoscience, 9: 117–130.
ISRM., 1981. Rock characterization testing and monitoring. ISRM suggested methods. Pergamon Press, Oxford.
ISRM., 2007. The complete ISRM suggested methods for rock characterization, testing and monitoring. In: Ulusay R, Hudson J.A (Eds.), Suggested methods prepared by the commission on testing methods, 1974–2006.
Jamshidi, A., Nikudel, M.R., Khamehchiyan, M., 2013. Estimating the durability of building stones against Salt crystallization: considering the physical properties and strength characteristics. Journal of Geopersia, 3(2): 35–48.
Kozlowski, R., Magiera, J., Weber, J., Haber, J., 1990. Decay and conservation of Princzow porous limestone, Part 1. Lithology and weathering. Studies in Conservation, 35; 205–221.
Nicholson, D., 2001. Pore properties as indicators of breakdown mechanisms in experimentally weathered limestone. Earth Surface Processes and Landforms, 26: 819–838.
Nicholson, D.T., Nicholson, F.H., 2000. Physical deterioration of sedimentary rocks subjected to experimental freeze-thaw weathering. Earth Surface Processes and Landforms, 25: 1295–1307.
Ordonez, S., Fort, R., Garcı´a del Cura, M.A., 1997. Pore size distribution and the durability of a porous limestone. Quarterly Journal of Engineering Geology, 30: 221– 230.
Richardson, B.A., 1991. The durability of porous stones. Stone Industries, 26 (10): 22– 25.
Rodriguez-Navarro, C., Doehne, E., 1999. Salt weathering: influence of evaporation rate, supersaturation and crystallization pattern. Earth Surface Processes and Landforms, 24: 191–209.
Rodriguez-Navarroa, C., Doehnea, E., Sebastianb, E., 2000. How does sodium sulfate crystallize? Implications for the decay and testing of building materials. Cement and Concrete Research, 30: 1527–1534.
Ruiz-Agudo, E., Mees, F., Jacobs, P., Rodriguez-Navarro, C., 2007. The role of saline solution properties on porous limestone salt weathering by magnesium and sodium sulfates. Environmental Geology, 52: 269–281.
Scherer, G., 1999. Crystallization in pores”, Cement and Concrete Research, 29: 1347–1358.
Schneider, C., Gommeaux, M., Fronteau, G., Oguchi, C.T., Eyssautier, S., Kartheuser, B., 2011. A comparison of the properties and salt weathering susceptibility of natural and reconstituted stones of the Orval Abbey (Belgium). Environmental Earth Sciences, 63: 1447–1461.
Sousa, M.O., Suarez del Rio, M., Calleja, L., Argandona, V., Rodriguez, A., 2005. Influence of microfractures and porosity on the physico-mechanical properties and weathering of ornamental granites”, Engineering Geology, 77: 153–168.
Topal, T., Doyuran, V., 1997. Enginnering geological properties and durability assessment of the Cappadocian tuff. Engineering Geology, 47:175–187.
Tsui, N., Flatt, R., Scherer, G., 2003. Crystallization damage by sodium sulfate. Journal of Cultural Heritage, 4: 109–115.
Tuğrul, A., 2004. The effect of weathering on the pore geometry and compressive strenght of selected rock types from Turkey. Engineering Geology, 75: 215–227.
Urosevic, M., Pardo, E., Cardell, C., 2010. Rough and polished travertine building stone decay evaluated by a marine aerosol ageing test. Construction and Building Materials, 24: 1438–1448.
Valdeon, L., de Freitas, M.H., King, M.S., 1996. Assessment of the quality of building stones using signal processing procedures. Quarterly Journal of Engineering Geology, 29: 299–308.
Winkler, E. M., 1994. Stone in Architecture, properties, durability. Thired Edition, Springer-Verlag Berlin Heidelberg.
Yavuz, A.B., 2006. Deterioration of the volcanic kerb and pavement stones in a humid environment in the city centre of Izmir, Turkey. Environmental Geology, 51: 211–227.
Yu, S., Oguchi, C., 2010. Role of pore size distribution in salt uptake, damage, and predicting salt susceptibility of eight types of Japanese building stones. Engineering Geology, 115: 226–236.
Zedef, V., Kocak, K., Doyen, A., Ozsen, H., Kekec, B., 2007. Effect of salt crystallization on stones of historical buildings and monuments, Konya, Central Turkey. Building and Environment, 42: 1453–1457.
Zezza, U., 1990. Physical– mechanical properties of quarry and building stones. In: Veniale, F., Zezza, U. (Eds.), Analytical Methodologies for Investigation of Damage Stones, Pavia, 1 – 20.