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1 
1.S. Popovics, Polymer-cement concretes for field construction, Proceedings, ASCE Vol.100, No.3, 1974, pp.469-487.Google Search
2 
2.Mun, K.-J., Song, H.-R., and Hyung, W.-G., “Properties of Polymer-Modified Mortar with Styrene-Butyl Acrylate and Styrene Butadiene Rubber”, Polymer, Vol.32, No.6, 2008, pp.555-560.Google Search
3 
3.Korea Institute of Energy Technology Evaluation and Planning (KETEP), Development of epoxy nanocomposite based neutron shielding materials for spent fuel cask, Korea Atomic Energy Research Institute(KAERI), 2013.Google Search
4 
4.Ministry of Trade, Industry&Energy(MOTIE), Development of radiation shielding material using an ultra-fine boron dispersed polymer matrix, 2009.Google Search
5 
5.Cho, S.H., Do, J.B., Ro, S.G., and Do, C.H., “Fabrication and Characteristics of Resin - Type Neutron Shielding Materials for Spent Fuel Shipping Cask”, Hwahak konghak, Vol.7, No.3, 1996, pp.597-604.Google Search
6 
6.Pyzik Aleksander, J., and Aksay Ilhan, A., “Processing of boron carbide-aluminum composites”, Journal of the amerian ceramic society, Vol.72, 1989, pp.775-780.Google Search
7 
7.Rack, H. J., Dupree, S. A., Smugeresky, J. F., and Stark, A. H., “Development of Boron Carbide-Copper Cermets”, Sandia National Laboratories Report SAND-78-2317, 1979.Google Search
8 
8.Sato, S., Maegawa, T., Yoshimatsu, K. Sato, K., Nonaka, A., Takakura, K., Ochiai, K., and Konno, C., “Development of a low activation concrete shielding wall by multi-layered structure for a fusion reactor”, JournalofNuclearMaterials,Vol.417, No.1-3,2011, pp.1131-1134.Google Search
9 
9.Cho, S.-H., Kim, I.S., Do, J.B., Ro,S.-G., andPark, H.S.“Fabrication and Characteristics of Modified and Hydrogenated Bisphenol-A type Epoxy Resin Based Neutron Shielding Materials”, Hwahak konghak, Vol.35, No.5 1997, pp.661-666.Google Search
10 
10.Jun, J.H., Kim, J.W., Bae, Y.J., and Seo, Y.S. “Enhancement of dispersion and adhesion of B4C particles in epoxy resin using direct ultrasonic excitation”, Journal of Nuclear Materials, Vol.416, 2011, pp.293-297.DOI
11 
11.Donza, H., Cabrera, O., and Irassar, E.F., “High-strength concrete with different fine aggregate”, Cement and Concrete Research, Vol.32, 2002, pp.1755-1761.DOI
12 
12.Karen, L., Scrivener, Alison K., Crumbie, and Peter Laugesen, “The Interfacial Transition Zone (ITZ) Between Cement Paste and Aggregate in Concrete”, Interface Science, Vol.12, 2004, pp.411-421.DOI
13 
13.Metha, P.K., “Concrete-structure, properties, and materials”, Prentice-Hall, 1986, pp.64-69.Google Search
14 
14.Bonavetti, V.L., and Irassar, E.F., “The effect of stone dust content in sand”, Cement and Concrete Research, Vol.24, No.3, 1993, pp.580-590.DOI
15 
15.KS L 5111, Flow table for use in tests of hydraulic cement, 2007.Google Search
16 
16. KS L 5105, Testing method for compressive strength of hydraulic cement mortars, 2007.Google Search
17 
17. KS L 5104, Testing method for tensile strength of hydraulic cement mortars, 2012.Google Search