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Enhancement of the Strength of MgO-Based Binder by Accelerated Carbonation
Yun, Do Youn;Ahn, Jun-Young;Kim, Cheolyong;Kim, Tae Yoo;Hwang, Inseong;
School of Civil & Environmental Engineering, Pusan National University;School of Civil & Environmental Engineering, Pusan National University;School of Civil & Environmental Engineering, Pusan National University;School of Civil & Environmental Engineering, Pusan National University;School of Civil & Environmental Engineering, Pusan National University;
촉진탄산염화에 의한 마그네슘계 고화제의 강도 향상 특성
윤도윤;안준영;김철용;김태유;황인성;
부산대학교 사회환경시스템공학과;부산대학교 사회환경시스템공학과;부산대학교 사회환경시스템공학과;부산대학교 사회환경시스템공학과;부산대학교 사회환경시스템공학과;

References

1. Alhozaimy, A., Al-Negheimish, A., Alawad, O. A., Jaafar, M. S., and Noorzaei, J., 2012, Binary and ternary effects of ground dune sand and blast furnace slag on the compressive strength mortar, J. Cem. Concr. Compos., 34, 734-738.
2. Ali, M.B., Saidur, R., and Hossain, M. S., 2011, A review on emission analysis in cement industries, J. Renewable and Sustainable Energy, 15, 2252-2261.
3. Atis, C.D., 2003, Accelerated carbonation and testing of concrete made with fly ash, J. Constr. Build. Mater., 17, 147-152.
4. Benhelal, E., Zahedi, G., Shamsaei, E., and Bahadori, A., 2013, Global strategies and potentials to curb $CO_2$ emissions in cement industry, J. Cleaner Prod., 51, 142-161.
5. Choate, W.T., 2003, Energy and Emission Reduction Opportunities for the Cement Industry. U.S. Department of Energy's Office of Energy Efficiency and Renewable Energy, Industrial Technologies Program. p.55.
6. Duxson, P., Provis, J.L., Lukey, G.C., and van Deventer, J.S., 2007, The role of inorganic polymer technology in the development of 'green concrete', J. Cem. Concr. Res., 37, 1590-1597.
7. Du, C., 2005, A review of magnesium oxide in concrete, Concr. Int., 45-50.
8. Gao, P., W, S., Lu, X., D, Min., Lin, P., Wu, Z., and Tang, M., 2007, Soundness evaluation of concrete with MgO, J. Constr. Build. Mater., 21, 132-138.
9. Gao, P., Lu, X., Geng, F., Li, X., Hou, J., Lin, H., and Shi, N., 2008, Production of MgO-type expansive agent in dam concrete by use of industrial by-products, Build. Environ., 43, 453-457.
10. Haha, M, B., Lothenbach, B., and Saout, G. L., and Winnefeld, F., 2011, Influence of slag chemistry on the hydration of alkaliactivated blast-furnace slag-Part I: Effect of MgO, J. Cem. Concr. Res., 41, 955-963.
11. Hwang, K.-Y., Seo, J.-Y., Phan, Hoang Q. H., Ahn, J,-Y., and Hwang, I., 2013, MgO-Based Binder for Treating Contaminated Sediments: Characteristics of Metal Stabilization and Mineral Carbonation, CLEAN SOIL AIR WATER, 42(3), 355-363.
12. Iwasaki and Tada, S., 1985, Carbonation of Aerated Concrete, Beijing Int. Symp. Cem. Concr., 3, 414-423.
13. Jang, B., Kwon, Y., Choi, S., and Lee, K., 2011, Fundamental Properties of Cement Composites Containing Lightly Burnt MgO Powders, J. Korea Concrete Institute, 23(2), 225-233.
14. Jin, F., Gu, K., and Al-Tabbaa, a., 2014, Strength and drying shrinkage of reactive MgO modified alkali-activated slag paste, J. Constr. Build. Mater., 51, 395-404.
15. Jin, F. and Al-Tabbaa, b., 2014, Evaluation of novel reactive MgO activated slag binder for the immobilisation of lead and zinc, Chemosphere, 117, 285-294.
16. Kim J.Y., 2014, Characteristics of heavy metals immobilization and carbonation of MgO-based binder depending on $CO_2$ con centration, Master dissertation, Pusan National University, Korea
17. Kim, T. and Jun, Y., 2015, The Strength and Drying Shrinkage Properties of Alkali-activated Slag using Hard-burned MgO, J. the Korea Institute for Structural Maintenance and Inspection, 19(3), 39-47.
18. Kwon, Y.H., Kwon, Y.H., and Lee, D.G., 2013, A Study on the Quality Properties of Alkali-activated cement free Mortar using Industrial by-products, J. Rec Const Resources, 1(1), 58-66.
19. Li, X., Ma, X., Zhang, S., and Zheng, E., 2013, Mechanical Properties and Microstructure of Class C Fly Ash-Based Geopolymer Paste and Mortar, J. Mater., 6, 1485-1495.
20. Lui, Z., Cui X., and Tang, M., 1992, Hydration and Setting Time of MgO-type Expansive Cement, Cement and Concrete Research, 22(1), 1-5.
21. Maria, S.K. and Suurenda, P.S., 2003, Hydration and properties of novel blended cements based on cement kiln dust and blast furnace slag, J. Cem. Concr. Res., 33, 1269-1267.
22. Maroto-Valer, M.M., Fauth, D.J., Kuchta, M.E., Zhang, Y., and Andresen, J.M., 2005, Activation of magnesium rich minerals as carbonation feedstock materials for $CO_2$ sequestration, Fuel Process. Technol., 86, 1627-1645.
23. McCarthy, M.J. and Dhir, R.K., 2005, Development of high volume fly ash cements for use in concrete construction, Fuel, 84, 1423-1432.
24. Mo, L., Deng, M and Tang, M., 2010, Potential Approach to Evaluating Soundness of Concrete Containing MgO-Based Expansive Agent, J. Mater., 107(2), 99-105.
25. Mo, L. and Panesar, D.K., 2012, Effects of accelerated carbonation on the microstructure of Portland cement pastes containing reactive MgO, J. Cem. Concr. Res., 42, 769-777.
26. Mo, L., Deng, M., Tang, M., and Al-Tabbaa, A., 2014, MgO expansive cement and concrete in China: Past, present and future, J. Cem. Concr. Res., 57, 1-12.
27. Morandeau, A., Thiery, M., and Dangla, P., 2015, Impact of accelerated carbonation on OPC cement paste blended with fly ash, J. Cem. Concr. Res., 67, 226-236.
28. Panesar, D.K. and Mo, L., 2013, Properties of binary and ternary reactive MgO mortar blends subjected to $CO_2$ curing, J. Cem. Concr. Compos., 38, 40-49.
29. Palacios, M. and Puertas, F., 2006, Effect of Carbonation on Alkali-Activated Slag Paste, J. Am. Ceram. Soc., 89(10), 3211-3221.
30. Sung, M., Cho, H., and Lee, H., 2015, Properties of Cement Paste Containing High Volume ${\gamma}$-C2S and MgO Subjected to $CO_2$ Curing, Korea Institute of Building and Construction, 15(3), 281-289.
31. Unluer, C. and Al-Tabbaa, A., 2013, Impact of hydrated magnesium carbonate additives on the carbonation of reactive MgO cements, J. Cem. Concr. Res., 54, 87-97.
32. Vahid, R,, Yixin, S., and Andrew, J.B., 2012, Carbonation curing versus steam curing for precast concrete production, J. Mater. Civ. Eng., 10, 1221-1229.
33. Vandeperre, L.J. and Al-Tabbaa, A., 2007, Accelerated Carbonation of Reactive MgO Cement, Adv. Cem. Res., 38, 40-49
34. Yi, Y., Liska, M., Unluer, C., and Al-Tabbaa, A., 2013, Carbonating magnesia for soil stabilization, Can. Geotech. J., 50(8), 899-905.

This Article

2016; 21(6): 135-145

Published on Dec 31, 2016
10.7857/JSGE.2016.21.6.135
Received on Nov 15, 2016
Accepted on Dec 8, 2016

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