Acknowledgement
이 연구는 2024년도 산업통상자원부 및 산업기술평가관리원(KEIT) 연구비 지원에 의한 연구임(RS-2024-00266009).
References
- Ahn, J.W., Kim, H.S., Cho, J., Han, G.C., Han, K.S., Kim, H. (2003). Manufacture of ordinary Portland cement clinker using cement paste of the waste concrete, Journal of the Korean Ceramic Society, 40(8), 804-810 [in Korean]. https://doi.org/10.4191/KCERS.2003.40.8.804
- Altun, I.A. (1999). Effect of CaF2 and MgO on sintering of cement clinker, Cement and Concrete Research, 29(11), 1847-1850. https://doi.org/10.1016/S0008-8846(99)00151-9
- Arai, Y., Jang, B.G. (1998). Cement Materials Chemistry, Chonnam National University Publishing Department, 152-153.
- Blanco-Varela, M.T., Vazquez, T. (1981). Ahorro de energia en la clinkerizacion empleando CaF2y CaS04 como mineralizadores. Estudio de la fluorellestadita, Materiales de Construccion, 31(181), 55-64. https://doi.org/10.3989/mc.1981.v31.i181.1020
- Choi, J.W., Gwon, S.J., Gang, B.H. (2020). Effect of semiconductor sludge addition on clinker burnability and cement quality, The Proceedings of 47th Cement Symposium, 141-147.
- Christensen, N.H., Jepsen, O.L., Johansen, V. (1978). Rate of alite-formation in clinker sandwiches, Cement and Concrete Research, 8(6), 693-702. https://doi.org/10.1016/0008-8846(78)90078-9
- Engelsen, C.J. (2007). Advanced Cementing Materials - Effect of Mineralizers in Cement Production, Report No. SBF BK A07021, SINTEF Building and Infrastructure-Concrete Innovation Centre (COIN), Trondheim, Norway.
- Gutt, W. (1968). Manufacture of Portland cement from phosphatic raw materials, Proceedings of the 5th International Symposium on the Chemistry of Cement, Tokyo, 1, 93-105.
- Gutt, W., Osborne, G.J. (1970). The system CaO-2CaO.SiO2.-CaF2, Transactions of the British Ceramic Society, 69, 125-129.
- Helmy, I.M. (2003). Utilization of some waste products as a mineralizers in the formation of Portland cement clinker, Industrial Ceramics, 23(1), 41-45.
- Hewlett, P.C. (1998). Chemistry of Cement and Concrete 4 ed, Butterworth-Heinemann: Oxford, MA USA,
- Johansen, V., Bhatty, J.I. (2011). Fluxes and Mineralizers in Clinkering Process, Innovations in Portland Cement Manufacturing, Portland Cement Association, 370.
- Kacimi, L., Simon-Masseron, A., Ghomari, A., Derriche, Z. (2006). Influence of NaF, KF and CaF2 addition on the clinker burning temperature and its properties, Comptes Rendus. Chimie, 9(1), 154-163.
- Kakali, G., Parissakis, G., Bouras, D.(1996). A study on the burnability and the phase formation of PC clinker containing Cu oxide, Cement and Concrete Research, 26(10), 1473-1478. https://doi.org/10.1016/0008-8846(96)00143-3
- Katerina, M., Frantisek, S. (2001). White cement-properties, manufacture, prospects, Ceramics-Silikaty, 45(4), 158-163.
- Klemm, W.A., Jawed, I., Holub, K.J. (1979). Effects of calcium fluoride mineralization on silicates and melt formation in portland cement clinker, Cement and Concrete Research, 9(4), 489-496. https://doi.org/10.1016/0008-8846(79)90046-2
- Moir, G.K. (1982). Mineralized high alite clinker, World Cement, 13(10), 374-382.
- Moir, G.K. (1983). Improvements in the early strength properties of Portland cement. Philosophical Transactions of the Royal Society A, 310(1511), 127-138.
- Tazuddin, A., Aiyer, H., Chatterjee, A. (2020). Thermodynamic simulation in evaluating the role of minor oxides and mineralizers in Portland cement clinker phase formation, SN Applied Sciences, 2(10), 1737.
- Tran, T.T. (2011). Fluoride Mineralization of Portland Cement, Applications of Double Resonance NMR Spectroscopy in Structural Investigations of Guest Ions in Cement Phases, Ph.D Thesis, University of Aarhus.
- Tristana, Y.D. (2014). Influence of Ferrite Phase in Alite-Calcium Sulfoaluminate Cements, Ph.D Thesis, Material Science Engineering, University of Kentucky.