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1.Korea Environment Corporation, Generation and Processing Status of National Waste(2013), No. KECO2014-PE14-38, Ministry of Environment, 2014. pp.22-30.Google Search
2.Waste Resources Management Division, Construction Waste Recycling Promotion Act, Law No. 13527, Ministry of environment, 2015, pp.1-20.Google Search
3.Technology Policy Division, Quality Standard of Recycled Aggregate, Bulletin No. 2013-92, Ministry of Land, Infrastructure and Transport, 2013, pp.5-82.Google Search
4.Tam, V.W.Y., Gao, X.F., and Tam, C.M., “Microstructural analysis of recycled aggregate concrete produced from two- stage mixing approach”, Cement and Concrete Research, Vol.35, No.6, 2005, pp.1195-1203.DOI
5.Xiao, J., Li, W., Fan, Y., and Huang, X., “An overview of study on recycled aggregate concrete in China (1996- 2011)”, Construction and Building Materials, Vol.31, 2012, pp.364-383.Google Search
6.Behnood, A., Gharehveran, M.M., Asl, F.G., and Ameri, M., “Effects of copper slag and recycled concrete aggregate on the properties of CIR mixes with bitumen emulsion, rice husk ash, Portland cement and fly ash”, Construction and Building Materials, Vol.96, 2015, pp.172-180.DOI
7.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.DOI
8.Akça, K.R., Çakır, Ö., and İpek, M., “Properties of polypropylene fiber reinforced concrete using recycled aggregates”, Cons-truction and Building Materials, Vol.98, 2015, pp.620-630.DOI
9.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.DOI
10.Alexander, S.B., Jefferay, R.R., and Andres, S., “Initial moisture and mixing effects on higher quality recycled coarse aggregate concrete”, Construction and Building Materials, Vol.79, 2015, pp.83-89.DOI
11.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.DOI
12.Song, I.H., and Ryou, J.S., “Hybrid techniques for quality improvement of recycled fine aggregate”, Construction and Building Materials, Vol.72, 2014, pp.56-64.DOI
13.Power, T.C., A Hypothesis of Carbonation Shrinkage, Journal of the PCA Research and Development Laboratories, Vol.4, No.2, 1962, pp.40-50.Google Search
14.Yamada, J., Ariizumi, M., Knowledge of Descriptive Cement and Concrete, Kajima Co., 1989, pp.71-76.Google Search
15.Mehta, P.K., and Monteiro, P.J.M., Concrete : Microstructure, Properties and Materials : Third edition, McGraw-Hill, New York, 2005. p.31.Google Search
16.Kunieda, Y., Research on Low-Quality Recycled Aggregate Reforming Technology by Accelerated Carbonation, Graduate School of Engineering, University of Tokyo master’s thesis, 2010, pp.139-140.Google Search