[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/scs.2015.19.4.917

Numerical comparison of the seismic performance of steel rings in off-centre bracing system and diagonal bracing system

Bazzaz, Mohammad (Faculty of Civil Engineering, Semnan University)
Andalib, Zahra (Faculty of Civil Engineering, Semnan University)
Kheyroddin, Ali (Faculty of Civil Engineering, Semnan University)
Kafi, Mohammad Ali (Faculty of Civil Engineering, Semnan University)

Publication Information

Steel and Composite Structures / v.19, no.4, 2015 , pp. 917-937 More about this Journal

Abstract

During a seismic event, a considerable amount of energy is input into a structure. The law of energy conservation imposes the restriction that energy must either be absorbed or dissipated by the structure. Recent earthquakes have shown that the use of concentric bracing system with their low ductility and low energy dissipation capacity, causes permanent damage to structures during intense earthquakes. Hence, engineers are looking at bracing system with higher ductility, such as chevron and eccentric braces. However, braced frame would not be easily repaired if serious damage has occured during a strong earthquake. In order to solve this problem, a new bracing system an off-centre bracing system with higher ductility and higher energy dissipation capacity, is considered. In this paper, some numerical studies have been performed using ANSYS software on a frame with off-centre bracing system with optimum eccentricity and circular element created, called OBS_C_O model. In addition, other steel frame with diagonal bracing system and the same circular element is created, called DBS_C model. Furthermore, linear and nonlinear behavior of these steel frames are compared in order to introduce a new way of optimum performance for these dissipating elements. The obtained results revealed that using a ductile element or circular dissipater for increasing the ductility of off-centre bracing system and centric bracing system is useful. Finally, higher ductility and more energy dissipation led to more appropriate behavior in the OBS_C_O model compared to DBS_C model.

Keywords

finite elements; numerical analysis; braced frame; damping; building; knee brace; steel structure;

Citations & Related Records

Times Cited By KSCI : 5 (Citation Analysis)

Reference
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