[1] Q. Sun and Y. Zhang, “Combined effects of salt, cyclic wetting and drying cycles on the physical and mechanical properties of sandstone,” Engineering Geology, vol. 248, pp. 70–79, 2019.

[2] Z. Zhou, X. Cai, L. Chen, W. Cao, and Y. Zhao, “Influence of cyclic wetting and drying on physical and dynamic compressive properties of sandstone,” Engineering Geology, vol. 220, pp. 1–12, 2017.

[3] G. Pardini, G. V. Guidi, R. Pini, D. Regüés, and F. Gallart, “Structure and porosity of smectitic mudrocks as affected by experimental wettingdrying cycles and freezing-thawing cycles,” Catena, vol. 27, no. 3–4, pp. 149–165, 1996.

[4] P. D. Sumner and M. J. Loubser, “Experimental sandstone weathering using different wetting and drying moisture amplitudes,” Earth Surface Processes and Landforms: Journal of the British Geomorphological Research Group, vol. 33, no. 6, pp. 985–990, 2008.

[5] A. Özbek, “Investigation of the effects of wetting-drying and freezing-thawing cycles on some physical and mechanical properties of selected ignimbrites,” Bulletin of Engineering Geology and the Environment, vol. 73, no. 2, pp. 595–609, 2014.

[6] G. Khanlari and Y. Abdilor, “Influence of wetdry, freeze-thaw, and heat-cool cycles on the physical and mechanical properties of Upper Red sandstones in central Iran,” Bulletin of Engineering Geology and the Environment, vol. 74, no. 4, pp. 1287–1300, 2015.

[7] H. F. Deng, J. L. Li, M. Zhu, K. W. Wang, L. H. Wang, and C. J. Deng, “Experimental research on strength deterioration rules of sandstone under “saturation-air dry” circulation function,” Rock and Soil Mechanics, vol. 33, no. 11, pp. 3306– 3312, 2012.

[8] P. A. Hale and A. Shakoor, “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, vol. 9, no. 2, pp. 117– 130, 2003.

[9] Z. Zhao, J. Yang, D. Zhang, and H. Peng, “Effects of wetting and cyclic wetting–drying on tensile strength of sandstone with a low clay mineral content,” Rock Mechanics and Rock Engineering, vol. 50, no. 2, pp. 485–491, 2017.

[10] S. Lee, “The third periodic report on the state of acid deposition in east Asia, part II national assessments,” presented at the Acid Deposition Monitoring Network in East Asia, Niigata-shi, Japan, 2016.

[11] Standard Test Method for Relative Density (Specific Gravity) and Absorption of Coarse Aggregate, ASTM C127-15, 2015.

[12] Standard Test Method for Flexural Strength of Concrete (Using Simple Beam With Center- Point Loading), ASTM C293 / C293M-16, 2016.

[13] Standard Test Methods for Compressive Strength and Elastic Moduli of Intact Rock Core Specimens under Varying States of Stress and Temperatures, ASTM D7012-14e1, 2014.

[14] A. Racey, M. A. Love, A. C. Canham, J. G. S. Goodall, S. Polachan, and P. D. Jones, “Stratigraphy and reservoir potential of the Mesozoic Khorat Group, NE Thailand: Part 1: Stratigraphy and sedimentary evolution,” Journal of Petroleum Geology, vol. 19, no. 1, pp. 5–39, 1996.