Abstract
Metallic yielding device is one of the passive energy dissipation devices. It has good energy dissipation capacity, high initial stiffness along with high ductility. In this study, 0.4-scale single-story single-bay non-ductile gravity load design frame has been tested under cyclic load; later on, the damaged frame has been strengthened with the help of steel caging and metallic yielding damper. In this paper, the experimental results are validated numerically using OpenSees. The numerical model has the capability of predicting of failure and nonlinear behavior of reinforced concrete frame. The numerical model predicted the hysteresis behavior, stiffness, and energy dissipation with adequate accuracy.
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References
Sahoo DR, Rai DC (2010) Seismic strengthening of non-ductile reinforced concrete frames using aluminum shear links as energy-dissipation devices. Eng Struct 32:3548–3557
Khampanit A, Leelataviwat S, Kochanin J, Warnitchai P (2014) Energy-based seismic strengthening design of non-ductile reinforced concrete frames using buckling-restrained braces. Eng Struct 81:110–122
ASCE 41-06 (2007) Seismic rehabilitation of existing buildings. American Society of Civil Engineers, Reston Virginia
ASCE 41-13 (2007) Seismic evaluation and retrofit of existing buildings. American Society of Civil Engineers, Reston Virginia
FEMA-547 (2006) Techniques for the seismic rehabilitation of existing buildings. Applied Technology Council, Washington DC
Melo J, Fernandes C, Varum H, Rodrigues H, Costa A, Arêde A (2010) Numerical modelling of the cyclic behaviour of RC elements built with plain reinforcing bars. Eng Struct 33:273–286
Mckenna F, Fenves G, Scott M, Jeremic B (2000) Open system for earthquake engineering (OpenSees). Berkley CA
Zhao J, Sritharan S (2007) Modeling of strain penetration effects in fiber-based analysis of reinforced concrete structures. ACI Struct J 104:133–141
Sahoo DR, Prakash A (2015) Seismic behavior of concentric braced frames designed using direct displacement-based design method. In: 8th international conference on behaviour of steel structures in seismic areas (STESSA), Shanghai China
Oinam RM, Sahoo DR (2015) Analytical prediction of cyclic performance of RC frame structures. In: Tenth pacific conference on earthquake engineering (10PCEE), Sydney, pp 6–13
Shetty MS (2005) Concrete technology: theory and practice. S. Chand and Company Ltd, New Delhi
Oinam RM, Sahoo DR, Sindhu R (2014) Cyclic response of non-ductile RC frame with steel fibers at beam-column joints and plastic hinge regions. J Earthquake Eng 18:908–928
Taraithia SS, Sahoo DR, Madan A (2013) Experimental study of combined yielding metallic passive devices for enhanced energy dissipation of structures. In: The Pacific structural steel conference, Singapore
Sahoo DR, Singhal T, Taraithia SS, Saini A (2015) Cyclic behavior of shear-and-flexural yielding metallic dampers. J Constr Steel Res 114:247–257
Oinam RM, Sahoo DR (2016) Seismic rehabilitation of damaged reinforced concrete frames using combined metallic yielding passive devices. Struct Infrastruct Eng 1–15
Nagaprasad P, Sahoo DR, Rai DC (2009) Seismic strengthening of RC columns using external steel cage. Earthquake Eng Struct Dyn 38:1563–1586
Mander JB, Priestley MJN, Park R (1989) Theoretical stress-strain model for confined concrete. J Struct Eng 114:1804–1826
ACI, Committee, 374.1-05 (2006) Acceptance criteria for moment frames based on structural testing and commentary—An ACI standard. American Concrete Institute, Farmington Hills Michigan
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Oinam, R.M., Sahoo, D.R. (2019). Numerical Evaluation of Cyclic Performance of Damaged RC Frames Using Passive Devices. In: Rao, A., Ramanjaneyulu, K. (eds) Recent Advances in Structural Engineering, Volume 2. Lecture Notes in Civil Engineering , vol 12. Springer, Singapore. https://doi.org/10.1007/978-981-13-0365-4_58
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DOI: https://doi.org/10.1007/978-981-13-0365-4_58
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