참고문헌
- ACI Committee 544 (1999), Design Consideration for Steel Fiber Reinforced Concrete, ACI 544.4R.
- Adebar, P., Mindess, S., St. Pierre, D., Olund, B.(1997), Shear tests of fiber concrete beams without stirrups, ACI Structural Journal, 94(1), 68-76.
- Ahn, J. K. (2003), A Study on Evaluation of Crack Resistance in Chemically Prestressed Mortar, Master Thesis, Yonsei University (in Korean).
- Ahn, J. K., Shim, B., Song, H. W., Byun, K. J. (2003), A study on fracture characteristics of chemically prestressed mortar, KCI Spring Conference, 15(1), 828-832 (in Korean).
- Cho, C. G., Han, S. J., Kwon, M. H., Lim, C. K. (2012), Seismic performance evaluation of reinforced concrete columns by applying steel fiber-reinforced mortar at plastic hinge region, Journal of the Korea Concrete Institute, 24(3), 241-248 (in Korean). https://doi.org/10.4334/JKCI.2012.24.3.241
- Cho, I. H., Yang, J. S., Kim, J. H. (1999), A field application of non-shrinkage high strength concrete using CSA expansive additives, Proceedings of KCI, 11(2), 77-80 (in Korean).
- Han, C. G., Bahn, H. Y., Jun, B. C., Hong, S. H. (1998), A study on the properties of high performance concrete using CSA expansive additivies, Journal of Architecture Institute of Korea, 14(11), 66-70 (in Korean).
- Han, C. G., Han, M. C., Park, C. J. (2011), Study on the estimation of drying shrinkage of the concrete using CSA expansive additive based on regression analysis, Journal of Architecture Institute of Korea, 27(9), 109-116 (in Korean).
- Kim, Y. K. (2003), A Study on Evaluation of Crack Resistance in Chemically Prestressed Steel Fiber Reinforced Concrete, Master Thesis, Yonsei University (in Korean).
- Maltese, C., Pistolesi, C., Lolli, A., Bravo, A., Cerulli, T., Salvioni, D. (2005), Combined effect of expansive and shrinkage reducing admixtures to obtain stable and durable mortars, Cement and Concrete Research, 35(2), 2244-2251. https://doi.org/10.1016/j.cemconres.2004.11.021
- Nagataki, S., Gomi, H. (1998), Expansive admixtures (mainly ettringite), Cement and Concrete Composites, 20(2-3), 163-170. https://doi.org/10.1016/S0958-9465(97)00064-4
- Okamura, H., Maekawa, K. (1991), Nonlinear Analysis and Constitutive Models of Reinforced Concrete. Tokyo (Japan), Gihodo-Shuppan, 102-181.
- Park, H. Y., Kim, C. Y., Choi, I. C., Bae, S. W., Ryu, J. H. (2001), Chemically prestressed precast concrete box culvert with expansive additives, Journal of the Korea Concrete Institute, 13(1), 43-51.
- Rhee, I. K., Kim, K. D., Kim, T. W., Lee, J. S. (2010), Heat of hydration and thermal crack control for floating concrete mass foundation, Journal of the Korea Institute for Structural Maintenance and Inspection, 14(1), 156-164 (in Korean).
- Sahamitmongkol, R., Tanaka, Y., and Kishi, T. (2002), Cracking Behaviors of chemical prestressed reinforced concrete members, JSCE Fourth International Summer Symposium, Kyoto, JAPAN, 5-13 (in Japanese).
- Song, H. W., Cho, H. J., Park, S. S., Byun, K. J., Maekawa, K. (2001), Early-age cracking resistance evaluation of concrete structure, Concrete Science and Engineering, 3(1), 62-72.
- Song, H. W., Kim, H. J., Kwon, S. J., Lee, C. H., Park, C. K. (2005), Prediction of service life in cracked reinforced concrete structures subjected to chloride attack and carbonation, 6th International Congress Global Construction: Ultimate Concrete Opportunities, Dundee, Scotland, 5-7 July, Vol Cement Combinations for Durable Concrete, 767-776.
- Yoo, S. W., Kwon, S. J., Jung, S. H. (2012), Analysis technique for autogenous shrinkage on high performance concrete with mineral and chemical admixtures, Construction and Building Materials, 34(9), 1-10. https://doi.org/10.1016/j.conbuildmat.2012.02.005
- Yoshinori, K., Yuichi, U. (2002), Test methodfor fracture property of concrete, Concerte Journal, 40(2), 8-15 (in Japanese).