How to cite this paper
Srujan, M & Srikanth, S. (2023). Experimental analysis of spliced joint connections in GFRP short column.Engineering Solid Mechanics, 11(4), 411-418.
Refrences
Al-Rubaye, M., Manalo, A., Alajarmeh, O., Ferdous, W., Lokuge, W., Benmokrane, B., & Edoo, A. (2020). Flexural behaviour of concrete slabs reinforced with GFRP bars and hollow composite reinforcing systems. Composite structures, 236, 111836.
Bazli, M., Zhao, X. L., Jafari, A., Ashrafi, H., Bai, Y., Raman, R. S., & Khezrzadeh, H. (2020). Mechanical properties of pultruded GFRP profiles under seawater sea sand concrete environment coupled with UV radiation and moisture. Construction and Building Materials, 258, 120369.
BSI. (2002). BS EN 13706-3: Reinforced plastic composites–Specification for pultruded profiles–Part 3: Specific requirements.
BSI. (2002). BS EN 1990: 2002: Eurocode–Basis of structural design.
En, B. S. (1991). 1-1: 2002 Eurocode 1: Actions on structures—General actions—Densities, self-weight, imposed loads for buildings.
EN, C. (1993). 1-9, Eurocode 3: Design of steel structures. fatigue.
Fahmy, M. F. M. (2013). Advanced fiber-reinforced polymer (FRP) composites to strengthen structures vulnerable to seismic damage. In Advanced Fibre-Reinforced Polymer (FRP) Composites for Structural Applications (pp. 511-551). Woodhead Publishing.
Ferdous, W., Manalo, A., AlAjarmeh, O., Mohammed, A. A., Salih, C., Yu, P., & Schubel, P. (2021). Static behaviour of glass fibre reinforced novel composite sleepers for mainline railway track. Engineering Structures, 229, 111627.
Frigione, M., & Lettieri, M. (2018). Durability issues and challenges for material advancements in FRP employed in the construction industry. Polymers, 10(3), 247.
Harley, G. L., Maxwell, J. T., Holt, D., & Speagle, C. B. (2017). Construction history of the deason house, jones county, mississippi. Dendrochronologia, 43, 50-58.
Kim, Y. J. (2019). State of the practice of FRP composites in highway bridges. Engineering Structures, 179, 1-8.
Liu, T., Liu, X., & Feng, P. (2020). A comprehensive review on mechanical properties of pultruded FRP composites subjected to long-term environmental effects. Composites Part B: Engineering, 191, 107958.
Mara, V., Haghani, R., & Al-Emrani, M. (2016). Improving the performance of bolted joints in composite structures using metal inserts. Journal of composite materials, 50(21), 3001-3018.
Nhut, P. V., Yoresta, F. S., Kitane, Y., Hashimoto, K., & Matsumoto, Y. (2021). On the strengthening of pultruded GFRP connections using glass fiber sheets: A study on the influence of bolt diameter. Applied Composite Materials, 1-31.
Phan Viet, N., Kitano, Y., & Matsumoto, Y. (2020). Experimental investigations of the strengthening effects of CFRP for thin-walled storage tanks under dynamic loads. Applied Sciences, 10(7), 2521.
Russo, S. (2019). On failure modes and design of multi-bolted FRP plate in structural joints. Composite Structures, 218, 27-38.
Sheikh, S. A., & Li, Y. (2007). Design of FRP confinement for square concrete columns. Engineering Structures, 29(6), 1074-1083.
Shin, Y. H., Yoong, Y. Y., Hejazi, F., & Saifulnaz, M. R. (2019, November). Review on pultruded FRP structural design for building construction. In IOP Conference Series: Earth and Environmental Science (Vol. 357, No. 1, p. 012006). IOP Publishing.
Standards, E. (n.d.). BS EN 15048-1:2016 Non-preloaded structural bolting assemblies. General requirements.
Tempelman, E. (2014). Lightweight materials, lightweight design?. In Materials experience (pp. 247-258). Butterworth-Heinemann.
Vedernikov, A., Safonov, A., Tucci, F., Carlone, P., & Akhatov, I. (2020). Pultruded materials and structures: A review. Journal of Composite Materials, 54(26), 4081-4117.
Viet, N. P., Yoresta, F. S., Kitane, Y., Hashimoto, K., & Matsumoto, Y. (2021). Improving the shear strength of bolted connections in pultruded GFRP using glass fiber sheets. Composite Structures, 255, 112896.
WALLACE, H. (1965). STRUCTURAL DESIGN. Architectural Science Review, 8(1), 5-8.
Zhao, X. L., & Zhang, L. (2007). State-of-the-art review on FRP strengthened steel structures. Engineering structures, 29(8), 1808-1823.
Bazli, M., Zhao, X. L., Jafari, A., Ashrafi, H., Bai, Y., Raman, R. S., & Khezrzadeh, H. (2020). Mechanical properties of pultruded GFRP profiles under seawater sea sand concrete environment coupled with UV radiation and moisture. Construction and Building Materials, 258, 120369.
BSI. (2002). BS EN 13706-3: Reinforced plastic composites–Specification for pultruded profiles–Part 3: Specific requirements.
BSI. (2002). BS EN 1990: 2002: Eurocode–Basis of structural design.
En, B. S. (1991). 1-1: 2002 Eurocode 1: Actions on structures—General actions—Densities, self-weight, imposed loads for buildings.
EN, C. (1993). 1-9, Eurocode 3: Design of steel structures. fatigue.
Fahmy, M. F. M. (2013). Advanced fiber-reinforced polymer (FRP) composites to strengthen structures vulnerable to seismic damage. In Advanced Fibre-Reinforced Polymer (FRP) Composites for Structural Applications (pp. 511-551). Woodhead Publishing.
Ferdous, W., Manalo, A., AlAjarmeh, O., Mohammed, A. A., Salih, C., Yu, P., & Schubel, P. (2021). Static behaviour of glass fibre reinforced novel composite sleepers for mainline railway track. Engineering Structures, 229, 111627.
Frigione, M., & Lettieri, M. (2018). Durability issues and challenges for material advancements in FRP employed in the construction industry. Polymers, 10(3), 247.
Harley, G. L., Maxwell, J. T., Holt, D., & Speagle, C. B. (2017). Construction history of the deason house, jones county, mississippi. Dendrochronologia, 43, 50-58.
Kim, Y. J. (2019). State of the practice of FRP composites in highway bridges. Engineering Structures, 179, 1-8.
Liu, T., Liu, X., & Feng, P. (2020). A comprehensive review on mechanical properties of pultruded FRP composites subjected to long-term environmental effects. Composites Part B: Engineering, 191, 107958.
Mara, V., Haghani, R., & Al-Emrani, M. (2016). Improving the performance of bolted joints in composite structures using metal inserts. Journal of composite materials, 50(21), 3001-3018.
Nhut, P. V., Yoresta, F. S., Kitane, Y., Hashimoto, K., & Matsumoto, Y. (2021). On the strengthening of pultruded GFRP connections using glass fiber sheets: A study on the influence of bolt diameter. Applied Composite Materials, 1-31.
Phan Viet, N., Kitano, Y., & Matsumoto, Y. (2020). Experimental investigations of the strengthening effects of CFRP for thin-walled storage tanks under dynamic loads. Applied Sciences, 10(7), 2521.
Russo, S. (2019). On failure modes and design of multi-bolted FRP plate in structural joints. Composite Structures, 218, 27-38.
Sheikh, S. A., & Li, Y. (2007). Design of FRP confinement for square concrete columns. Engineering Structures, 29(6), 1074-1083.
Shin, Y. H., Yoong, Y. Y., Hejazi, F., & Saifulnaz, M. R. (2019, November). Review on pultruded FRP structural design for building construction. In IOP Conference Series: Earth and Environmental Science (Vol. 357, No. 1, p. 012006). IOP Publishing.
Standards, E. (n.d.). BS EN 15048-1:2016 Non-preloaded structural bolting assemblies. General requirements.
Tempelman, E. (2014). Lightweight materials, lightweight design?. In Materials experience (pp. 247-258). Butterworth-Heinemann.
Vedernikov, A., Safonov, A., Tucci, F., Carlone, P., & Akhatov, I. (2020). Pultruded materials and structures: A review. Journal of Composite Materials, 54(26), 4081-4117.
Viet, N. P., Yoresta, F. S., Kitane, Y., Hashimoto, K., & Matsumoto, Y. (2021). Improving the shear strength of bolted connections in pultruded GFRP using glass fiber sheets. Composite Structures, 255, 112896.
WALLACE, H. (1965). STRUCTURAL DESIGN. Architectural Science Review, 8(1), 5-8.
Zhao, X. L., & Zhang, L. (2007). State-of-the-art review on FRP strengthened steel structures. Engineering structures, 29(8), 1808-1823.