An existing RCC G+2 healthcare building's performance point in ETAB  was determined by a non-linear static pushover analysis

Mr. A. Ramkumar; Mr. C. Jegadeeswaran; Mrs. R. Keerthana; Dr. S. Gayathri; Mr. A. Venkateshan

Authors

Mr. A. Ramkumar Author
Mr. C. Jegadeeswaran Author
Mrs. R. Keerthana Author
Dr. S. Gayathri Author
Mr. A. Venkateshan Author

Keywords:

Pushover Analysis, Nonlinear Static analysis, Performance point, Capacity curve, Displacement, Drift of stories, seismic zones, Etabs software

Abstract

Buildings must be able to safely
withstand any significant ground vibrations that may
occur during their construction or regular operation
in order to be considered earthquake resistant.
Structures that are exposed to severe ground
movements are best analysed using the time-history
method. On the other hand, the impact that ground
movements have on structural reactions is unlike
any other.This work will focus on the analysis of
steel-framed buildings, specifically the pushover
analysis, which is a static nonlinear process that
estimates seismic structural deformations using a
simplified nonlinear technique. The capacity curve
or force displacement relationship of a structure or
structural part may be found using this incremental
static analysis. The analysis begins with a pattern of
horizontal loads being given to the structure in a
predefined manner. To put it another way, the
structure is pushed gradually, and the total applied
shear force and accompanying lateral loads are
plotted at each increment until the structure reaches
the collapse state. This approach involves applying
certain lateral loads to a building model on a
computer, such as inverted triangle or uniform
loads. As the lateral load is incrementally raised,
each structural component is monitored for
fractures, yielding, plastic hinge creation, and
eventual collapse. The weak points in the structure's
seismic performance may be uncovered with
substantial information using pushover analysis.
This study uses pushover analysis to examine the
performance point seismic response of steel-framed
buildings and the influence of earthquake stresses on
the frames of multi-story buildings. The current
investigation involves the design of a building frame.
as specified in Indian Standards (IS) 456:2000 and
IS 1893:2002. The primary goal of this research is
to determine the potential performance of a building
when constructed in accordance with Indian
Standards. Only during zone-3 earthquakes is the pushover
study of a steel-framed building performed using the
structural analysis program E-tabs.
.