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TECHNICAL PAPER



           54.  Mechtcherine, V., Millon, O., Butler, M., and Thoma, K.   66.  Yun, H. D. (2013). “Flexural behavior and crack-damage
               (2011). “Mechanical behaviour of strain-hardening cement-  mitigation of plain concrete beam with a strain-hardening
               based composites under impact loading”. Cement and     cement composite (SHCC) layer at tensile region”.
               Concrete Composites, 33, 1–11.                         Composites: Part B: Engineering, 45(1), 377-38.

           55.  Yang, E. H., and Li, V. C. (2012). “Tailoring engineered   67.  Leung, C. K., Cheung, Y. N., and Zhang, J. (2007). “Fatigue
               cementitious composites for impact resistance”. Cement   enhancement of concrete beam with ECC layer”. Cement
               and Concrete Research, 42, 1066–1071.                  and Concrete Research, 37, 743–750.
           56.  Zhang, J., Maalej, M., Quek, S.T., and Teo, Y.Y. (2005).   68.  Yi, D., Xiaobing, C., and Wenyong, C. (2011). “The flexural
               “Drop weight impact on hybrid-fiber ECC blast/shelter   behavior of beams strengthened with FRP grid and ECC”.
               panels”. In Proceedings of third international conference   Advances in FRP Composites in Civil Engineering, 668-671.
               on construction materials: performance, innovation and   69.  Kamal, A., Kunieda, M., Ueda, N., and Nakamura, H. (2008).
               structural applications, Vancouver, Canada.
                                                                      “Assessment of strengthening effect on RC beams with
           57.  Nam, J., Shinohara, Y., Atou, T., Kim, H., and Kim, G. (2016).   UHP-SHCC”. In Proceeding of JCI annual meeting, CD: file
               “Impact resistant performance of Ductile Fiber Reinforced   (No. 3248), 1483-88.
               Cementitious Composites (DFRCCs)”. In 9th International   70.  Zheng, Y. Z., Wang, W. W., and Brigham, J. C. (2016).
               Conference on Fracture Mechanics of Concrete and       “Flexural behaviour of reinforced concrete beams
               Concrete Structures, Berkeley, USA.
                                                                      strengthened with a composite reinforcement layer: BFRP
           58.  Zhang, J., Leung, C. K., and Cheung, Y. N. (2006). “Flexural   grid and ECC”. Construction and Building Materials, 115,
               performance of layered ECC-concrete composite beam”.   424–437.
               Composites Science and Technology, 66, 1501–1512.
                                                                  71.  Guan, Y., Yuan, H., Ge, Z., Huang, Y., Li, S., and Sun, R.
           59.  Shin, S.K., Kim, J.J.H., and Lim, Y.M. (2007). “Investigation   (2018). “Flexural properties of ECC-Concrete Composite
               of the strengthening effect of DFRCC applied to plain   beam”. Advances in Civil Engineering, 2018, 3138759.
               concrete beams”. Cement and Concrete Composites, 29,   72.  Ge, W., Ashour, A. F., Cao, D., Lu, W., Gao, P., Yu, J., and
               465–473.
                                                                      Cai, C. (2019). “Experimental study on flexural behavior
           60.  Singh, S. B., and Sivasubramanian, M. V. R. (2013). “Flexural   of ECC-concrete composite beams reinforced with FRP
               response of ECC strengthened reinforced concrete       bars”. Composite Structures, 208, 454–465.
               beams”. Indian Concrete Journal, 1-11.
                                                                  73.  Yu, C., Leung, C. K., and Cao, Q. (2010). “Behavior
           61.  Afefy, H. M. E. D., and Mahmoud, M. H. (2014). “Structural   of concrete members constructed with SHCC/GFRP
               performance of RC slabs provided by pre-cast ECC       permanent formwork”. In Proceedings of 7th international
               strips in tension cover zone”. Construction and Building   conference on fracture mechanics of concrete and
               Materials, 65, 103–113.                                concrete structures, CD ROM, Jeju, Korea, 1691-1698.
           62.  Ge, W. J., Ashour, A. F., Yu, J., Gao, P., Cao, D. F., Cai, C.,   74.  Esmaeeli, E., Manning, E., and Barros, J. A. (2013). “Strain-
               and Ji, X. (2019). “Flexural behavior of ECC–Concrete   hardening fiber reinforced cement composites for the
               hybrid composite beams reinforced with FRP and steel   flexural strengthening of masonry elements of ancient
               bars”. Journal of Composites for Construction, 23(1),   structures”. Construction and Building Materials, 38,
               04018069.                                              1010–1021.

           63.  Shin, S.K., Kim, K., and Lim, Y.M. (2011). “Strengthening   75.  Singh, S.B., Patil, R., and Munjal, P. (2017). “Study of
               effects of DFRCC layers applied to RC flexural members”.   flexural response of engineered cementitious composite
               Cement and Concrete Composites, 33, 328–333.           faced masonry structures”. Engineering Structures, 150,
                                                                      786–802.
           64.  Krishnaraja, A. R., and Kandasamy, S. (2018). “Flexural
               Performance of hybrid Engineered Cementitious      76.  Dehghani, A., Fischer, G., and Alahi, F. N. (2013).
               Composite layered reinforced concrete beams”. Periodica   “Strengthening masonry infill panels using engineered
               Polytechnica Civil Engineering, 62(4), 921–929.        cementitious composites”. Materials and Structures,
                                                                      48(1-2), 185-204.
           65.  Hussein, M., Kunieda, M., and Nakamura, H. (2012).
               “Strength and ductility of RC beams strengthened   77.  Kim, J. H. J., Lim, Y. M., Won, J. P., Park, H. G., and Lee,
               with steel-reinforced strain-hardening cementitious    K. M. (2007). “Shear capacity and failure behavior of
               composites”. Cement and Concrete Composites, 34,       DFRCC repaired RC beams at tensile region”. Engineering
               1061–1066.                                             Structures, 29, 121–131.


        26    The IndIan ConCreTe Journal | June 2020
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