Bank, L. C. (2006). Composites for construction: Structural design with FRP materials, John Wiely & Sons, NJ, USA.10.1002/9780470121429Bank, L. C. (2006). Composites for construction: Structural design with FRP materials, John Wiely & Sons, NJ, USA.

Bank, L. C., Oliva, M. G., Bae, H. U., Barker, J. and Yoo, S. W. (2006). “Test of pultruded FRP plank as formwork and rein-forcement for concrete structures.” COMPOSITES 2006 Convention and Trade Show, American Composites Manufacturers Association, USA, October 18-20, pp. 1-8.Bank, L. C., Oliva, M. G., Bae, H. U., Barker, J. and Yoo, S. W. (2006). “Test of pultruded FRP plank as formwork and rein-forcement for concrete structures.” COMPOSITES 2006 Convention and Trade Show, American Composites Manufacturers Association, USA, October 18-20, pp. 1-8.

Cheng, L., Zhao, L. M., Karbhari, V., Hegemier, G. A. and Seible, F. (2005). “Assessment of a steel-free fiber reinforced polymer-composite modular bridge system.” Journal of Structural Engineering, Vol. 131, No. 3, pp. 498-506.10.1061/(ASCE)0733-9445(2005)131:3(498)Cheng, L., Zhao, L. M., Karbhari, V., Hegemier, G. A. and Seible, F. (2005). “Assessment of a steel-free fiber reinforced polymer-composite modular bridge system.” Journal of Structural Engineering, Vol. 131, No. 3, pp. 498-506.

Cho, J. R., Park, S. Y., Cho, K. H., Kim, S. T. and Kim, B. S. (2012). “Pull-out test and discrete spring model of fibre-reinforced polymer perfobond rib shear connector.” Canadian Journal of Civil Engineering, Vol. 39, No. 12, pp. 1311-1320.10.1139/cjce-2011-0573Cho, J. R., Park, S. Y., Cho, K. H., Kim, S. T. and Kim, B. S. (2012). “Pull-out test and discrete spring model of fibre-reinforced polymer perfobond rib shear connector.” Canadian Journal of Civil Engineering, Vol. 39, No. 12, pp. 1311-1320.

Cho, K. H., Park, S. Y., Cho, J. R. and Kim, B. S. (2007). “Structural systems and behavioral characteristics of an innovative FRP-concrete composite deck.” Journal of Korean Society of Civil Engineers, KSCE, Vol. 27, No. 3, pp. 347-357 (in Korean).Cho, K. H., Park, S. Y., Cho, J. R. and Kim, B. S. (2007). “Structural systems and behavioral characteristics of an innovative FRP-concrete composite deck.” Journal of Korean Society of Civil Engineers, KSCE, Vol. 27, No. 3, pp. 347-357 (in Korean).

Erki, M. (1999). “Fiber-reinforced polymers for structural engineering in Canada.” Structural Eng, International, Vol. 9, No. 4, pp. 278-280.10.2749/101686699780481691Erki, M. (1999). “Fiber-reinforced polymers for structural engineering in Canada.” Structural Eng, International, Vol. 9, No. 4, pp. 278-280.

Fukuyama, H., Matsuzaki, Y., Sato, Y., Iso, M. and Suwada, H. (2000). “Structural performance of engineered cementitious com-posite elements.” Proceeding of 6th ASCCS Conference, pp. 969-976.Fukuyama, H., Matsuzaki, Y., Sato, Y., Iso, M. and Suwada, H. (2000). “Structural performance of engineered cementitious com-posite elements.” Proceeding of 6th ASCCS Conference, pp. 969-976.

Jeong, J. W., Park, K. T., Lee, Y. H. and Hwang, Y. K. (2007). “A comparison of the structural performance for GFRP bridge decks applied to vinyl ester and polyester resins.” Journal of Korean Society of Civil Engineers, KSCE, Vol. 27, No. 4, pp. 479-484 (in Korean).Jeong, J. W., Park, K. T., Lee, Y. H. and Hwang, Y. K. (2007). “A comparison of the structural performance for GFRP bridge decks applied to vinyl ester and polyester resins.” Journal of Korean Society of Civil Engineers, KSCE, Vol. 27, No. 4, pp. 479-484 (in Korean).

Kim, Y. B. and Lee, J. H. (2005). “Simplified analytical model for flexural response of fiber reinforced plastic decks.” Journal of the Korean Association for Shell and Spatial Structures, Vol. 5, No. 3, pp. 65-74 (in Korean).Kim, Y. B. and Lee, J. H. (2005). “Simplified analytical model for flexural response of fiber reinforced plastic decks.” Journal of the Korean Association for Shell and Spatial Structures, Vol. 5, No. 3, pp. 65-74 (in Korean).

Tang, B. and Podolny, W. and Hooks, J. (1999). “A good start for fiber-reinforced polymer composite material bridges.” American Society of Civil Engineers, Materials Engineering Congress, pp. 324-331. Tang, B. and Podolny, W. and Hooks, J. (1999). “A good start for fiber-reinforced polymer composite material bridges.” American Society of Civil Engineers, Materials Engineering Congress, pp. 324-331.

Yong, H. S., Hwang, Y. K., Kyung, K. S. and Park, Y. C. (2006). “A study of static behavior of FRP bridge deck concerning connection condition.” Journal of Korean Society of Civil Engineers, KSCE, Vol. 26, No. 4, pp. 597-604 (in Korean).Yong, H. S., Hwang, Y. K., Kyung, K. S. and Park, Y. C. (2006). “A study of static behavior of FRP bridge deck concerning connection condition.” Journal of Korean Society of Civil Engineers, KSCE, Vol. 26, No. 4, pp. 597-604 (in Korean).

Yoo, S. W., Bae H. U., Oliva, M. and Bank, L. (2007). “Experimental study of concrete beam with FRP plank as formwork and rein-forcement.” Journal of the Korea Concrete Institute, KCI, Vol. 19, No. 1, pp. 67-74 (in Korean).10.4334/JKCI.2007.19.1.067Yoo, S. W., Bae H. U., Oliva, M. and Bank, L. (2007). “Experimental study of concrete beam with FRP plank as formwork and rein-forcement.” Journal of the Korea Concrete Institute, KCI, Vol. 19, No. 1, pp. 67-74 (in Korean).

Zureick, A. H., Shih, B. and Munley, E. (1995). “Fiber-reinforced polymeric bridge decks.” Structural Engineering, SCI, Vol. 7, No. 3, pp. 257-266.Zureick, A. H., Shih, B. and Munley, E. (1995). “Fiber-reinforced polymeric bridge decks.” Structural Engineering, SCI, Vol. 7, No. 3, pp. 257-266.