Acknowledgement
This study is part of the research conducted by the Korea Institute of Geoscience and Mineral Resources, "Reduction of Acid Drainage Damage in Construction Sites and Eco-Resilience Technology Development GP2017-041-2019" and Baek (2020).
References
- Baek, I. W. (2020), Characteristics of Banking Structures Constructed with Improved Tertiary Mudstone with Composite Slag and Neutralizing and Coating Agents, MS. Thesis, Korea Maritime and Ocean University.
- Baek, I. W., Kim, J. G., Song, Y. S., and Kim, T. H. (2021), "Neutralization Effect of Slag on the Acid Rock Drainage", International Journal of Geo-Engineering, Vol.12, No.2, https://doi.org/10.1186/s40703-020-00131-2
- Baek, I. W., Kim, J. G., Song, Y. S., and Kim, T.-H. (2020), "Acid Rock Drainage Generation Capacity of Tertiary Mudstone in Pohang Basin", Journal of the Korean Geosynthetics Society, Vol.19 No.2, pp.23-33. https://doi.org/10.12814/JKGSS.2020.19.2.023
- Ban, H. K., Lee, H. Y., Bae, K. J., and Cho, W. J. (2015), "Engineering Properties of Uncemented Mudrock from Yeoju Area, Gyeonggi-Do", Journal of Korean Geoenvironmental Society, Vol.16, pp.53-58.
- Choi, E.-K., Kim, S.-W., Hwang, W.-K., Kwon, H.-W., and Kim, T.-H. (2018), "A Study on Anisotropy of Magnetic Susceptibility of Clastic Sedimentary Rocks in the Gyeongsang Basin", Journal of The Korean Geotechnical Society, Vol.34, No.8, pp.5-14. https://doi.org/10.7843/KGS.2018.34.8.5
- Japan Cement Association, 2007. Ground improvement manual usingcement-based solidification material, Vol.3, pp.43-4.
- Jeong, G.-B. (2006), A Study of Engineering Characteristics and Deformation Behavior of Pohang Mudstone, Youngnam University, Ph.D. thesis, pp.292
- KIGAM (2019), Technology Development for Damage Reduction and Ecosystem Restoration in Acid Drainage Producing Construction Site, GP2017-041-2019, pp.160.
- Kim, J. G. (2007), "Acid Drainage and Damage Reduction Strategy in Construction Site: An Introduction", Econ. Environ. Geol., Vol.50, pp.651-660.
- Kim, J. W. (2017), Estimation of Chemical Weathering Index and Rock Property Reduction Considering Anisotropy of Clastic Sedimentary Rock in Korea, Ph.D. Thesis, Korea Maritime and Ocean University.
- Kim, K. S., You, B. O. and Lee, S. D. (2002), "Failure Characteristics of Cut Slopes of Shale in Kyoungsang Basin", Proceedings of the seminar and field workshop for mudstone and shale, organized by the Korean Geotechnical Society for Rock Mechanics Commission, pp.103-114.
- Korea Agency for Technology and Standards (2016), Standard Test Method for Plate Load Test on Soils for Road, KS F 2310.
- Korea Agency for Technology and Standards (2016), Standard Test Method for Test Method for Soil Density by the Sand Replacement Method, KS F 2311.
- Korea Expressway Corporation (2016), Highway Construction Material Quality Standards.
- Lee, G. M., Kim, J. G., Lee, J. S., Chon, C. M., Park, S. G., Kim, T. H., Ko, G. S., and Kim, T. K. (2005), "Generation Characteristics and Prediction of Acid Rock Drainage(ARD) of Cut Slope", Econ. Environ. Geol., Vol.38, pp.91-99.
- Lee, Y. N., Kim, Y. I., Jung, H. J., and Kim, Y. G. (2002). Problems in Construction of Tunnel and Rock Slope at Mudstone and Shale Region. Proceedings of the seminar and field workshop for mudstone and shale, organized by the Korean Geotechnical Society for Rock Mechanics Commission, pp.115-140.
- Lee, Y.-H., and Jeong, G.-B. (2012), "Creep Characteristics of Mudstone According to Stress Level and Water Content", Journal of Korean Geoenvironmental Society, Vol.13, No.3, pp.39-51.
- Ministry of Land, Infrastructure and Transport (2012), Road Design Manual.
- Ministry of Land, Infrastructure and Transport (2019), Construction Work Standard Product Calculation.
- Park, H. D. (2002), "Engineering Geological Properties of Mudstone and Shale", Proceedings of the Seminar and Field Workshop for Mudstone and Shale, organized by the Korean Geotechnical Society for Rock Mechanics Commission, pp.18-30.
- Snethen, D. R., Townsend, F. C., Johnson, L. D., Patrick, D. M., and Vedros, P. J. (1975), A Review of Engineering Experiences with Expansive Soils in Highway Subgrades, Waterways Experiment Station, NTIS No. ADA 020309, pp.4-25.
- Taylor, R. K. and Spears, D. A. (1981), "Laboratory Investigation of Mudrocks", Quarterly Journal of Engineering Geology and Hydrogeology, Vol.14, pp.291-309. https://doi.org/10.1144/GSL.QJEG.1981.014.04.08
- Van Eeckhout, E. M. (1976), "The Mechanisms of Strength Reduction Due to Moisture in Coal Mine Shales. International Journal of Rock Mechanics and Mining Science and Geomechanics Abstracts, Vol.13, No.2, pp.61-67. https://doi.org/10.1016/0148-9062(76)90705-1