International Journal of Earth Sciences and Engineering

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Performance of Eccentrically Braced Frames Under the Action of Lateral Load


Affiliations
1 School of Mechanical and Building Sciences, VIT University Chennai Campus, Chennai-600127, Tamil Nadu, India
2 Department of Mechanical Engineering, Gojan School of Business and Technology, Chennai-600052, Tamil Nadu, India
 

This paper presents a performance of eccentrically braced frame under the action of unexpected seismic event. To control the lateral displacements, initially researchers started experimental investigations on concentric braces to steel moment resisting frames. During severe earthquake, moment resisting frames undergo large lateral displacement and it requires special concentration to control lateral displacement and to limit the damage to non-structural elements. The concept of incorporating braces eccentrically attracted the interest of researchers and which behave excellent energy dissipation both in tension and compression in accepts of seismic performance seems to improve ductile strength in concern with shear or flexural yielding of a link element. This paper attempts to study the seismic performance of steel moment resisting frames with eccentric braces to target the lesser storey maximum displacement compared to the conventional braced system during undesirable earthquakes. In the previous research recommended that the influence of controlled yielding in the beams is not determined to EBF performance as long as stability of the beam is maintained. The provided EBF models were selected and investigated through three dimensional, linear analyses. Three steel framed structures (6 story, 9 story and 15 story) are designed as per IS 1893-2002 for calculating seismic loads by the equivalent lateral force procedure and their final performances of structure are evaluated through linear analysis using ETABS 2015.

Keywords

Steel Moment Resisting Frame, Eccentric Brace, Seismic Performance, Lateral Displacement.
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  • Performance of Eccentrically Braced Frames Under the Action of Lateral Load

Abstract Views: 167  |  PDF Views: 112

Authors

A. Ramya
School of Mechanical and Building Sciences, VIT University Chennai Campus, Chennai-600127, Tamil Nadu, India
K. Muthumani
School of Mechanical and Building Sciences, VIT University Chennai Campus, Chennai-600127, Tamil Nadu, India
L. Nafeez Ahmed
Department of Mechanical Engineering, Gojan School of Business and Technology, Chennai-600052, Tamil Nadu, India

Abstract


This paper presents a performance of eccentrically braced frame under the action of unexpected seismic event. To control the lateral displacements, initially researchers started experimental investigations on concentric braces to steel moment resisting frames. During severe earthquake, moment resisting frames undergo large lateral displacement and it requires special concentration to control lateral displacement and to limit the damage to non-structural elements. The concept of incorporating braces eccentrically attracted the interest of researchers and which behave excellent energy dissipation both in tension and compression in accepts of seismic performance seems to improve ductile strength in concern with shear or flexural yielding of a link element. This paper attempts to study the seismic performance of steel moment resisting frames with eccentric braces to target the lesser storey maximum displacement compared to the conventional braced system during undesirable earthquakes. In the previous research recommended that the influence of controlled yielding in the beams is not determined to EBF performance as long as stability of the beam is maintained. The provided EBF models were selected and investigated through three dimensional, linear analyses. Three steel framed structures (6 story, 9 story and 15 story) are designed as per IS 1893-2002 for calculating seismic loads by the equivalent lateral force procedure and their final performances of structure are evaluated through linear analysis using ETABS 2015.

Keywords


Steel Moment Resisting Frame, Eccentric Brace, Seismic Performance, Lateral Displacement.