JKCI
Journal of
the Korea Concrete Institute
KCI
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ISSN : 1229-5515 (Print)
ISSN : 2234-2842 (Online)
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Journal of the Korea Concrete Institute
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J Korea Concr Inst.
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2016-08
(Vol.28 No.4)
10.4334/JKCI.2016.28.4.445
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REF
1
1.Korea Environment Corporation, Generation and Processing Status of National Waste (2013), No. KECO2014-PE14-38, Ministry of Environment, 2014. pp.22-30.
2
2.Korea Institute of Civil Engineering and Building Technology, Study on Activation Measures of Recycled Aggregate, 11-1613000-000638-01, Ministry of Land, Infrastructure and Transport, 2014, pp.3-34.
3
3.Korea Construction Economy and Industry Association, Study on Master Plan establishing of Aggregate Demand and Supply, 1-1613000-000269-13, Ministry of Land, Infrastructure and Transport, 2014, pp.71-157.
4
4.Waste Resources Management Division, Construction Waste Recycling Promotion Act, Law No. 13527, Ministry of environment, 2015, pp.1-20.
5
5.Technology Policy Division, Quality Standard of Recycled Aggregate, Bulletin No. 2013-92, Ministry of Land, Infrastructure and Transport, 2013, pp.19-25.
6
6.Korean Agency for Technology and Standards, Recycled Aggregates for Concrete, KS F 2573, Ministry of Trade, Industry and Energy, 2014, pp.6-8.
7
7.Tangchirapat, W., Buranasing R., Jaturapitakkul C., and Chindaprasirt P., “Influence of rice husk–bark ash on mechanical properties of concrete containing high amount of recycled aggregates,” Construction and Building Materials, Vol.22, No.8, 2008, pp.1812-1819.
8
8.Corinaldesi, V., and Moriconi, G., “Influence of mineral additions on the performance of 100% recycled aggregate concrete”, Construction and Building Materials, Vol.23, No.8, 2009, pp.2869-2876.
9
9.Kou, S., Poon, C., and Agrela, F., “Comparisons of natural and recycled aggregate concretes prepared with the addition of different mineral admixtures”, Cement and Concrete Composites, Vol.33, No.8, 2011, pp.788-795.
10
10.Çakır, Ö., and Sofyanlı, Ö.Ö., “Influence of silica fume on mechanical and physical properties of recycled aggregate concrete”, Housing and Building National Research Center Journal, Vol.11, No.2, 2015, pp.157-166.
11
11.Akça, K.R., Çakır, Ö., and İpek, M., “Properties of poly-propylene fiber reinforced concrete using recycled aggregates”, Construction and Building Materials, Vol.98, 2015, pp.620-630.
12
12.Cartuxo, F., de Brito, J., Evangelista, L., Jiménez, J.R., and Ledesma, E.F., “Rheological behaviour of concrete made with fine recycled concrete aggregates – Influence of the superplasticizer”, Construction and Building Materials, Vol.89, 2015, pp.36-47.
13
13.Katz, A., “Treatments for the improvement of recycled aggregate”, Journal of Materials in Civil Engineering, Vol.16, No.6, 2004, pp.597-603.
14
14.Cheng, H., and Wang, C., “Experimental study on strengthen concrete regenerated aggregate with water glass”, New Building Materials, Vol.12, 2004, pp.12-14.
15
15.Kim, N. Y., Kim, H. J., and Bae, J. S., “A Study on the Property Estimation of Recycled Coarse Aggregate and Characteristic of Recycled Aggregate Concrete Using the Surface Coated Treatment Method,” Journal of The Korean Society of Civil Engineers A, Vol.28, No.4A, 2008, pp.603-609.
16
16.Choi, H. B., “Water Absorbtion Controlling Type Surface Treatment Method for Quality Enhancement of Recycled Aggregate,” Journal of The Korean Institute of Building Construction, Vol.15, No.6, 2015, pp.561-567.
17
17.Zhang, H., Zhao, Y., Meng, T., and Shah, S.P., “The modi-fication effects of a nano-silica slurry on microstructure, strength, and strain development of recycled aggregate concrete applied in an enlarged structural test”, Construction and Building Materials, Vol.95, 2015, pp.721-735.
18
18.Powers, T.C., “A Hypothesis of Carbonation Shrinkage”, Journal of the PCA Research and Development Laboratories, Vol.4, No.2, 1962, pp.40-50.
19
19.Papadakis, V.G., Costas, G., Vayenas, and Michael, N.F., “Physical and chemical characteristics affecting the durability of concrete”, ACI Materials Journal, Vol.88, No.2, 1991, pp.186-196.
20
20.Choi, Y. J., Lee, K. M., Kim, J. H., Jung, S. H., Lee, M. K., “Applicability Study of the Rapid Carbonation Test Equipment for Concrete,” Proceedings of the Korea Concrete Institute, Vol.18, No.2, 2006, pp.601-604.
21
21.Korea Concrete Institute, Engineering of Concrete, 2011, pp.300-374.
22
22.Korea Concrete Institute, Engineering of Concrete, 2011, pp.421-430.
23
23.Donghwa Technology Publishing Co., Concrete : Crack, Deterioration and Measures, 2010, pp.114-118.