Application of fuzzy logic approach in predicting the lateral confinement coefficient for RC columns wrapped with CFRP

•Artificial intelligence is introduced for computing the confinement coefficient Ks.•Non-linear regression analysis (NRA) is used for comparison purposes.•In NRA, exponential and polynomial models are derived for Ks.•A fuzzy logic method is considered for modeling mechanical response of confined con...

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Bibliographic Details
Published in:Engineering structures 2015-04, Vol.88, p.74-91
Main Authors: Doran, Bilge, Yetilmezsoy, Kaan, Murtazaoglu, Selim
Format: Article
Language:English
Subjects:
Artificial intelligence
Concrete column
Fiber reinforced polymer
Fuzzy logic
Lateral confinement coefficient
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Summary:•Artificial intelligence is introduced for computing the confinement coefficient Ks.•Non-linear regression analysis (NRA) is used for comparison purposes.•In NRA, exponential and polynomial models are derived for Ks.•A fuzzy logic method is considered for modeling mechanical response of confined concrete.•Fuzzy logic model showed adequate performance and produced small residual errors. Worldwide ageing infrastructures which are vulnerable to seismic lateral loads and located in high seismicity regions have arrested the interest of many researchers to find alternative materials and techniques to strengthen in bending and shear, for example reinforced concrete (RC) beams, slabs, columns, etc. There are several strengthening/repair techniques and materials in literature. Although the method of strengthening concrete structures with fiber reinforced polymers (FRP) is a relatively new technique, it has existed for more than two decades. In this context, several confinement models have been developed for FRP-confined concrete for the prediction of stress–strain response and several researchers have developed various constitutive models to measure the increase in the axial strength of concrete due to the confinement effect of FRP laminates. In this study, RC columns wrapped with carbon FRP (CFRP) considering some existing confinement models in the literature have been investigated. Moreover, based on the experimental data set in the literature, a new artificial intelligence-based algorithm (a Mamdani-type fuzzy inference system) was implemented to model the strength enhancement of CFRP confined RC columns using fuzzy logic methodology. Fuzzy logic predicted results were compared with the outputs of a non-linear regression analysis-based exponential model derived in the scope of the present work. The best predictive performances of the models were assessed by means of various descriptive statistical indicators. The comparison of the proposed prognostic approach with existing empirical and experimental data exhibits a very good precision of the developed artificial intelligence-based model in predicting the lateral confinement coefficient in CFRP wrapped RC columns.
ISSN:0141-0296
1873-7323
DOI:10.1016/j.engstruct.2015.01.039