How to cite this paper
Nikbakht, E., Gad, M & Chang, J. (2024). Push-out tests on steel composite sections with engineered cementitious composite.Engineering Solid Mechanics, 12(1), 11-16.
Refrences
Alraeeini, A. S., & Nikbakht, E. (2022, October). Corrosion effect on the flexural behaviour of concrete filled steel tubulars with single and double skins using engineered cementitious composite. In Structures (Vol. 44, pp. 1680-1694). Elsevier.
Bandelt, M. J., & Billington, S. L. (2016). Impact of reinforcement ratio and loading type on the deformation capacity of high-performance fiber-reinforced cementitious composites reinforced with mild steel. Journal of Structural Engineering, 142(10), 04016084.
Eurocode 4 (2004). Design of Composite Steel and Concrete Structures. Part 1.1: General Rules and Rules for Buildings: BS EN 1994-1-1.
Gad, M. A., Nikbakht, E., Khaled, A., & Al-Raeeini, A. (2021). Ultimate strength of glass fibre reinforced polymer—engineered cementitious composites (GFRP-ECC) sandwich composite sections. In Advances in Civil Engineering Materials: Selected Articles from the International Conference on Architecture and Civil Engineering (ICACE2020) (pp. 51-61). Springer Singapore.
Liew, J. R., & Sohel, K. M. A. (2009). Lightweight steel–concrete–steel sandwich system with J-hook connectors. Engineering structures, 31(5), 1166-1178.
Liew, J. R., & Sohel, K. M. A. (2010). Structural performance of steel-concrete-steel sandwich composite structures. Advances in Structural Engineering, 13(3), 453-470.
Lorenc, W., & Kubica, E. (2006). Behavior of composite beams prestressed with external tendons: Experimental study. Journal of constructional steel research, 62(12), 1353-1366.
Nikbakht, E., Al-Fakih, A., Hui, C. C., Jake, L. Y., & Mahzabin, M. S. (2019, June). An experimental investigation on the shear and flexural behavior of steel reinforced HPSCC beams. In Structures (Vol. 19, pp. 286-295). Elsevier.
Nikbakht, E., Lok, J. W. W., & Teo, W. (2021, August). Structural behaviour of novel composite beams consisting of geopolymer concrete and high-performance concrete. In Structures (Vol. 32, pp. 106-115). Elsevier.
Ollgaard, J.G., Slutter, R.G., & Fisher, J.W. (1971). Shear strength of stud connectors in lightweight and normal weight concrete. AISC Engineering Journal, 8(2), 55-64.
Soundararajan, A. & Shanmugasundaram, K. (2008). Flexural1Behavior of Concrete-Filled1Steel Hollow Sections Beams, Journal of Civil1Engineering and Management, 14(2), 107-144.
Xue, W., Ding, M., Wang, H., & Luo, Z. (2008). Static behavior and theoretical model of stud shear connectors. Journal of bridge engineering, 13(6), 623-634.
Yan, J. B., Hu, H., & Wang, T. (2020). Shear behaviour of novel enhanced C-channel connectors in steel-concrete-steel sandwich composite structures. Journal of Constructional Steel Research, 166, 105903.
Yan, J. B., Liew, J. R., Qian, X., & Wang, J. Y. (2015). Ultimate strength behavior of curved steel–concrete–steel sandwich composite beams. Journal of Constructional Steel Research, 115, 316-328.
Yan, J. B., Liew, J. R., Sohel, K. M. A., & Zhang, M. H. (2014). Push-out tests on J-hook connectors in steel–concrete–steel sandwich structure. Materials and structures, 47, 1693-1714.
Yousefi, M., & Ghalehnovi, M. (2017). Push-out test on the one end welded corrugated-strip connectors in steel-concrete-steel sandwich structure. Steel and Composite Structures, 24(1), 23-35.
Bandelt, M. J., & Billington, S. L. (2016). Impact of reinforcement ratio and loading type on the deformation capacity of high-performance fiber-reinforced cementitious composites reinforced with mild steel. Journal of Structural Engineering, 142(10), 04016084.
Eurocode 4 (2004). Design of Composite Steel and Concrete Structures. Part 1.1: General Rules and Rules for Buildings: BS EN 1994-1-1.
Gad, M. A., Nikbakht, E., Khaled, A., & Al-Raeeini, A. (2021). Ultimate strength of glass fibre reinforced polymer—engineered cementitious composites (GFRP-ECC) sandwich composite sections. In Advances in Civil Engineering Materials: Selected Articles from the International Conference on Architecture and Civil Engineering (ICACE2020) (pp. 51-61). Springer Singapore.
Liew, J. R., & Sohel, K. M. A. (2009). Lightweight steel–concrete–steel sandwich system with J-hook connectors. Engineering structures, 31(5), 1166-1178.
Liew, J. R., & Sohel, K. M. A. (2010). Structural performance of steel-concrete-steel sandwich composite structures. Advances in Structural Engineering, 13(3), 453-470.
Lorenc, W., & Kubica, E. (2006). Behavior of composite beams prestressed with external tendons: Experimental study. Journal of constructional steel research, 62(12), 1353-1366.
Nikbakht, E., Al-Fakih, A., Hui, C. C., Jake, L. Y., & Mahzabin, M. S. (2019, June). An experimental investigation on the shear and flexural behavior of steel reinforced HPSCC beams. In Structures (Vol. 19, pp. 286-295). Elsevier.
Nikbakht, E., Lok, J. W. W., & Teo, W. (2021, August). Structural behaviour of novel composite beams consisting of geopolymer concrete and high-performance concrete. In Structures (Vol. 32, pp. 106-115). Elsevier.
Ollgaard, J.G., Slutter, R.G., & Fisher, J.W. (1971). Shear strength of stud connectors in lightweight and normal weight concrete. AISC Engineering Journal, 8(2), 55-64.
Soundararajan, A. & Shanmugasundaram, K. (2008). Flexural1Behavior of Concrete-Filled1Steel Hollow Sections Beams, Journal of Civil1Engineering and Management, 14(2), 107-144.
Xue, W., Ding, M., Wang, H., & Luo, Z. (2008). Static behavior and theoretical model of stud shear connectors. Journal of bridge engineering, 13(6), 623-634.
Yan, J. B., Hu, H., & Wang, T. (2020). Shear behaviour of novel enhanced C-channel connectors in steel-concrete-steel sandwich composite structures. Journal of Constructional Steel Research, 166, 105903.
Yan, J. B., Liew, J. R., Qian, X., & Wang, J. Y. (2015). Ultimate strength behavior of curved steel–concrete–steel sandwich composite beams. Journal of Constructional Steel Research, 115, 316-328.
Yan, J. B., Liew, J. R., Sohel, K. M. A., & Zhang, M. H. (2014). Push-out tests on J-hook connectors in steel–concrete–steel sandwich structure. Materials and structures, 47, 1693-1714.
Yousefi, M., & Ghalehnovi, M. (2017). Push-out test on the one end welded corrugated-strip connectors in steel-concrete-steel sandwich structure. Steel and Composite Structures, 24(1), 23-35.