참고문헌
- ACI Committee 318. (2005). Building code requirements for structural concrete (ACI 318-05) and commentary (318R-05). Farmington Hills, MI: American Concrete Institute, 443 pp.
- Adhikary, B. B., & Mutsuyoshi, H. (2006). Prediction of shear strength of steel fiber RC beams using neural networks. Construction and Building Materials, 20, 801-811. https://doi.org/10.1016/j.conbuildmat.2005.01.047
- Ashour, S. A., Hasanain, G. S., & Wafa, F. F. (1992). Shear behaviour of high strength fiber reinforced concrete beams. ACI Structural Journal, 89(2), 176-184.
- Batson, G., Jenkins, E., & Spatney, R. (1972). Steel fibers as shear reinforcement in beams. ACI Journal, Proceedings, 69(10), 640-644.
- Cho, S., & Kim, Y. (2003). Effects of steel fibers on short beams loaded in shear. ACI Structural Journal, 100(6), 765-774.
- Choi, K. K., & Park, H. G. (2007). Unified shear strength model for reinforced concrete beams-Part II: Verification and simplified method. ACI Structural Journal, 104(2), 153-168.
- Choi, K. K., Park, H. G., & Wight, J. M. (2007). Shear strength of steel fiber-reinforced concrete beams without web reinforcement. ACI Structural Journals, 104, 12-21.
- Cucchiara, C., Mendola, L. L., & Papia, M. (2004). Effectiveness of stirrups and steel fibers as shear reinforcement. Cement & Concrete Composites, 26, 777-786. https://doi.org/10.1016/j.cemconcomp.2003.07.001
- Dinh, H. H. (2007). Shear behavior of steel fiber reinforced concrete beams without stirrup reinforcement. Doctoral Dissertation, University of Michigan, MI.
- Dinh, H. H., Parra-Montesinos, G. J., & Wight, J. K. (2010). Shear behavior of steel fiber reinforced concrete beams without stirrup reinforcement. ACI Structural Journal, 107(5), 597-606.
- Dupont, D., & Vandewalle, L. (2003). Shear capacity of concrete beams containing longitudinal reinforcement and steel fibers. In N. Banthia (Ed.), Proceedings of innovations in fiber-reinforced concrete for value, Detroit, Michigan (SP-216, pp. 79-94). Farmington Hills, MI: American Concrete Institute.
- Esfahani, M. R., & Rangan, B. V. (1998). Bond between normal strength and high-strength concrete (HSC) and reinforcing bars in splices in beams. ACI Structural Journal, 95(3), 272-280.
- Greenough, T., & Nehdi, M. (2008). Shear behaviour of fiber reinforced self-consolidating concrete slender beams. ACI Materials Journal, 105(5), 468-477.
- Imam, M., Vandewalle, L., & Mortelmans, F. (1994). Shear capacity of steel fiber high-strength concrete beams. High performance concrete (SP 149, pp. 227-241). Detroit, MI: American Concrete Institute.
- Kang, T. H.-K., Kim, W., Kwak, Y.-K., & Hong, S.-G. (2011). Shear testing of steel fiber-reinforced lightweight concrete beams without web reinforcement. ACI Structural Journal, 108(5), 553-561.
- Khaloo, A. R., & Kim, N. (1997). Influence of concrete and fiber characteristics on behavior of steel fiber reinforced concrete under direct shear. ACI Materials Journal, 94(6), 592-601.
- Khuntia, M., Stojadinovic, B., & Goel, S. (1999). Shear strength of normal and high-Strength fiber reinforced concrete beams without stirrups. ACI Structural Journal, 96(2), 282-290.
- Kwak, Y., Eberhard, M. O., Kim, W., & Kim, J. (2002). Shear strength of steel fiber reinforced concrete beams without Stirrups. ACI Structural Journal, 99(4), 530-538.
- Li, V. C., Ward, R., & Hamza, A. M. (1992). Steel and synthetic fibers as shear reinforcement. ACI Materials Journal, 89(5), 499-508.
- Lim, D. H., & Oh, B. H. (1999). Experimental and theoretical investigation on the shear of steel fiber reinforced concrete beams. Engineering Structures, 21, 937-944. https://doi.org/10.1016/S0141-0296(98)00049-2
- Madan, S. K., Kumar, G. R., & Singh, S. P. (2007). Steel fibers as replacement of web reinforcement for RCC deep beams in shear. Asian Journal of Civil Engineering (Building and Housing), 8(5), 479-489.
- Mansur, M. A., Ong, K. C. G., & Paramasivam, P. (1986). Shear strength of fibrous concrete beams without stirrups. ASCE Journal of Structural Engineering, 112(9), 2066-2079. https://doi.org/10.1061/(ASCE)0733-9445(1986)112:9(2066)
- Minelli, F., & Vecchio, F. J. (2006). Compression field modeling of fiber-reinforced concrete members under shear loading. ACI Structural Journal, 103(2), 244-252.
- Murty, D. S. R., & Venkatacharyulu, T. (1987). Fiber reinforced concrete beams subjected to shear force. In: Proceedings of the international symposium on fiber reinforced concrete (pp. 133-149). Madras, India.
- Narayanan, R., & Darwish, I. Y. S. (1987). Use of steel fibers as shear reinforcement. ACI Structural Journal, 84(3), 216-227.
- Narayanan, R., & Darwish, I. Y. S. (1988). Fiber concrete beams in shear. ACI Structural Journal, 85(2), 141-149.
- Noghabai, K. (2000). Beams of fibrous concrete in shear and bending: Experiment and model. ASCE Journal of Structural Engineering, 126(2), 243-251. https://doi.org/10.1061/(ASCE)0733-9445(2000)126:2(243)
- Ramakrishna, G., & Sundararajan, T. (2005). Studies on the durability of natural fibres and the effect of corroded fibres on the strength of mortar. Cement & Concrete Composites, 27(5), 575-582. https://doi.org/10.1016/j.cemconcomp.2004.09.008
-
Rosenbusch, J., & Teutsch, M. (2003). Shear design with (
${\sigma}-{\varepsilon}$ ) method. In Proceedings of international RILEM workshop on test and design methods for steel fiber reinforced concrete (pp. 105-117). Bochum, Germany: RILEM Publications SARL. - Sharma, A. K. (1986). Shear strength of steel fiber reinforced concrete beams. ACI Journal, 83(4), 624-628.
- Shin, S. W., Oh, J. G., & Ghosh, S. K. (1994). Shear behavior of laboratory-sized high strength concrete beams reinforced with bars and steel fibers. Fiber Reinforced Concrete Developments and Innovations, ACI, 142, 181-200.
- Swamy, R. N., & Bahia, H. M. (1985). The effectiveness of steel fibers as shear reinforcement. Concrete International, 7(3), 35-40.
- Swamy, R. N., Jones, R., & Chiam, A. T. P. (1993). Influence of steel fibers on the shear resistance of lightweight concrete Ibeams. ACI Structural Journal, 90(1), 103-114.
- Tan, K. H., Murugappan, K., & Paramasivam, P. (1993). Shear behaviour of steel fiber reinforced concrete beams. ACI Structural Journal, 90(1), 3-11.
- Yakoub, H. E. (2011). Shear stress prediction: Steel fiber-reinforced concrete beams without stirrups. ACI Structural Journal, 108(3), 304-336.
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