Title of article
AN OPTIMIZATION PROCEDURE FOR CONCRETE BEAMCOLUMN JOINTS STRENGTHENED WITH FRP
Author/Authors
Khashi, V Department of Civil Engineering - Islamic Azad University - Bam Branch, Bam , Dehghani, H Department of Civil Engineering - Higher Education Complex of Bam, Bam , Jahanara, A.A Department of Civil Engineering - Islamic Azad University - Bam Branch, Bam
Pages
13
From page
675
To page
687
Abstract
This paper illustrates an optimization procedure of concrete beam-column joints subjected to
shear that are strengthened with fiber reinforced polymer (FRP). For this aim, five different
values have been considered for length, width and thickness of the FRP sheets which created
125 different models to strengthen of concrete beam-column joints. However, by using
response surface methodology (RSM) in design expert software the number of these models
is reduced to 20. Then, each of 20 models is simulated in ABAQUS finite element software
and shear capacity is also determined. The relationship between different dimensions of the
FRP sheets and shear capacity are specified by using RSM. Furthermore the optimum
dimensions are determined by particle swarm optimization (PSO) algorithm.
Keywords
fiber reinforced polymer , beam-column joints , response surface methodology , optimization
Journal title
Astroparticle Physics
Serial Year
2018
Record number
2469872
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