Structural Behavior of Reinforced Hybrid Concrete Columns under Biaxial Loading

The study aims to investigate the behaviour of reinforced hybrid concrete columns consisted of two fully-bonded concretes subjected to biaxial loading. Experimental tests were conducted on 5 square columns of 200mm side dimensions. Two columns were cast from one type of concrete but with varied stre...

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Published inLatin American Journal of Solids and Structures Vol. 18; no. 6
Main Authors Al-Zuhairi, Alaa Hussein, Al-Ahmed, Ali Hussein Ali, Hanoon, Ammar N., Abdulhameed, Ali A.
Format Journal Article
LanguageEnglish
Published Latin American Journal of Solids and Structures 01.01.2021
Associação Brasileira de Ciências Mecânicas
Subjects
Analysis
Concrete
ENGINEERING, CIVIL
ENGINEERING, MECHANICAL
MECHANICS
Numerical analysis
Pennsylvania
Hybrid concrete column
Analytical model
Biaxial loading
Finite element analysis
Interaction diagram
Online AccessGet full text
ISSN1679-7817
1679-7825
1679-7825
DOI10.1590/1679-78256640

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Abstract The study aims to investigate the behaviour of reinforced hybrid concrete columns consisted of two fully-bonded concretes subjected to biaxial loading. Experimental tests were conducted on 5 square columns of 200mm side dimensions. Two columns were cast from one type of concrete but with varied strength. The other three specimens were cast by hybrid concrete with different hybrid's ratios. The study also comprised the derivation of an analytical model, simulating the behaviour of the tested column by numerical models, and statistical evaluation. Whereas a computer program was constructed to evaluate the ultimate strength of hybrid columns and finite element models were executed for the numerical analysis. Both results were compared with the experimental outcomes and good agreement was observed. The results revealed an increase in the ultimate load of hybrid columns by 33.5% as compared with conventional columns. Also, the ultimate load increased by 38% with decreasing the hybrid's ratio to 0.16. It was concluded that hybrid columns with small hybrid's ratios sustain higher loads, moments and exhibited fewer axial strains.
AbstractList Abstract The study aims to investigate the behaviour of reinforced hybrid concrete columns consisted of two fully-bonded concretes subjected to biaxial loading. Experimental tests were conducted on 5 square columns of 200mm side dimensions. Two columns were cast from one type of concrete but with varied strength. The other three specimens were cast by hybrid concrete with different hybrid’s ratios. The study also comprised the derivation of an analytical model, simulating the behaviour of the tested column by numerical models, and statistical evaluation. Whereas a computer program was constructed to evaluate the ultimate strength of hybrid columns and finite element models were executed for the numerical analysis. Both results were compared with the experimental outcomes and good agreement was observed. The results revealed an increase in the ultimate load of hybrid columns by 33.5% as compared with conventional columns. Also, the ultimate load increased by 38% with decreasing the hybrid’s ratio to 0.16. It was concluded that hybrid columns with small hybrid’s ratios sustain higher loads, moments and exhibited fewer axial strains.
The study aims to investigate the behaviour of reinforced hybrid concrete columns consisted of two fully-bonded concretes subjected to biaxial loading. Experimental tests were conducted on 5 square columns of 200mm side dimensions. Two columns were cast from one type of concrete but with varied strength. The other three specimens were cast by hybrid concrete with different hybrid's ratios. The study also comprised the derivation of an analytical model, simulating the behaviour of the tested column by numerical models, and statistical evaluation. Whereas a computer program was constructed to evaluate the ultimate strength of hybrid columns and finite element models were executed for the numerical analysis. Both results were compared with the experimental outcomes and good agreement was observed. The results revealed an increase in the ultimate load of hybrid columns by 33.5% as compared with conventional columns. Also, the ultimate load increased by 38% with decreasing the hybrid's ratio to 0.16. It was concluded that hybrid columns with small hybrid's ratios sustain higher loads, moments and exhibited fewer axial strains.
Audience Academic
Author Al-Zuhairi, Alaa Hussein
Al-Ahmed, Ali Hussein Ali
Hanoon, Ammar N.
Abdulhameed, Ali A.
AuthorAffiliation University of Baghdad
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Issue 6
Keywords Hybrid concrete column
Analytical model
Biaxial loading
Finite element analysis
Interaction diagram
Language English
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Snippet The study aims to investigate the behaviour of reinforced hybrid concrete columns consisted of two fully-bonded concretes subjected to biaxial loading....
Abstract The study aims to investigate the behaviour of reinforced hybrid concrete columns consisted of two fully-bonded concretes subjected to biaxial...
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SubjectTerms Analysis
Concrete
ENGINEERING, CIVIL
ENGINEERING, MECHANICAL
MECHANICS
Numerical analysis
Title Structural Behavior of Reinforced Hybrid Concrete Columns under Biaxial Loading
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