Characteristics of Soil Pavement by Red Mud Content and Binder Type |
Kang, Suk-Pyo
(Department of Architecture, Woosuk University)
Kang, Hye-Ju (Department of Architecture, Woosuk University) Kim, Jae-Hwan (AMS Engineering) Kim, Byeong-Ki (AMS Engineering) |
1 | Chang, J.J., Yeih, W., Chung, T.J., Huang, R. (2016). Properties of pervious concrete made with electric arc furnace slag and alkali-activated slag cement, Construction and Building Materials, 109, 34-40. DOI |
2 | Daniel, V.R , Joao, A.L., Marcio, R.M. (2011). Potential use of natural red mud as pozzolan for portland cement, Materials Research, 14(1), 60-66. DOI |
3 | Dowa, C., Glasserb, F.P. (2003). Calcium carbonate efflorescence on Portland, cement and building materials, Cement and Concrete Research, 33, 147-154. DOI |
4 | Gonga, C., Yang, N. (2000). Effect of phosphate on the hydration of alkali-activated red mud slag cementitious material, Cement and Concrete Research, 30, 1013-1016. DOI |
5 | Kang, S.P. (2012). A study on the usability of red mud as activator of alkali-activated cementless binder, Journal of the Architectural Institute of Korea Structure & Construction, 28(11), 133-140 [in Korean]. DOI |
6 | Kang, S.P. (2015). "A study on the field applicability evaluation alkali-activated soil pavement using red mud," Proceeding of the Korean Institute of Building Construction, 15(1), 95-97 [in Korean]. |
7 | Kang, S.P., Kang, H.J. (2017). Durability of alkali-activated slag-red mud cement mortar using polymer, Journal of the Architectural Institute of Korea Structure & Construction, 33(1), 81-88 [in Korean]. DOI |
8 | Kani, E.N., Allahverdi, A., Provis, J.L. (2012). Efflorescence control in geopolymer binders based on natural pozzolan, Cement and Concrete Composites, 34, 25-33. DOI |
9 | Kropp, J. (1995). Performance Criteria for Concrete Durability, E&FN Spon, London, 103-111. |
10 | Kwon, S.J., Kang, S.P. (2016). Strength and pore characteristics of alkali-activated slag-red mud cement mortar used polymer according to red mud content, Journal of the Korea Institute for Structural Maintenance and Inspection, 20(2), 26-33 [in Korea]. DOI |
11 | Lee, M., Lee J. (2001). Concrete's water tightness evaluation based on water absorption coefficient theory, Journal of the Architectural Institute of Korea Structure & Construction, 17(2), 75-83 [in Korean]. |
12 | Pan, Z., Cheng, L., Lu, Y., Yang, N. (2002). Hydration products of alkali-activated slag-red mud cementitious material, Cement and Concrete Research, 32, 357-362. DOI |
13 | Pan, Z., Li, D., Yu, J., Yang, N. (2003). Properties and microstructure of the hardened alkali-activated red mud-slag cementitious material, Cement and Concrete Research, 33, 1437-1441. DOI |
14 | Pontikes, Y., Angelopoulos, G.N. (2013). Bauxite residue in cement and cementitious applications : Current status and a possible way forward, Resources, Conservation and Recycling, 73, 53-63. DOI |
15 | Zhang, Z., Provis, J.L. (2014). Andrew reid, hao wang, fly ash-based geopolymers: the relationship between composition, pore structure and efflorescence, Cement and Concrete Research, 64, 30-41. DOI |