Shear strength assessment of reinforced recycled aggregate concrete beams without stirrups using soft computing techniques

Albostami, Asad S.; Al-Hamd, Rwayda Kh. S.; Alzabeebee, Saif

doi:10.1007/s41024-023-00343-w

J Build Rehabil

2023

DOI: 10.1007/s41024-023-00343-w

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Shear strength assessment of reinforced recycled aggregate concrete beams without stirrups using soft computing techniques

Asad S. Albostami,

Rwayda Kh. S. Al-Hamd,

Saif Alzabeebee

Abstract: This paper presents a study to predict the shear strength of reinforced recycled aggregate concrete beams without stirrups using soft computing techniques. The methodology involves the development of a Multi-Objective Genetic Algorithm Evolutionary Polynomial Regression (MOGA-EPR) and Gene Expression Programming (GEP) models. The input variables considered are the longitudinal reinforcement ratio, recycled coarse aggregate ratio, beam cross-section dimensions, and concrete compressive strength. Data collected … Show more

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Cited by 4 publications

References 61 publications

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The influence of electronic waste and attapulgite clay on lightweight polyester concrete

Mohamad,

Alzabeebee,

Albostami

et al. 2024

Innov. Infrastruct. Solut.

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Natural aggregate consumption for producing concrete depletes the natural aggregate, necessitating the development of alternative materials that do not cause a burden on natural resources. Electronic plastic waste (EPW) like digital video discs (DVDs) and compact discs (CDs) are becoming an extreme burden to the environment due to the high quantities generated, which pose serious harm to both the environment and its inhabitants. This study presents the concept of recycling EPW and converting it into construction materials with high specifications. Using 100% EPW in place of sand and 4% unsaturated polyester resin with 20% high reactivity attapulgite (HRA) as a filler, the study generated lightweight polyester concrete (LWPC). The HRA was used after calcination at three temperatures (300, 600 and 900 °C), and for comparison, without calcination, various concentrations of the concrete components were used to produce LWPC using EPW with the optimum polyester resin percentage and HRA burning temperature. The study assessed the physical and mechanical properties of 24 mixtures of LWPC and showed the possibility of producing a novel type of high-strength, sustainable, LWPC with high properties (rapid-set, followability and ductility). The results showed that reducing the concrete’s density to below 1385 kg/m3 and, when optimal quantities of polyester resin, EPW, and HRA were used, enhanced the workability, flowability, and mechanical properties of fresh and hardened concrete.

show abstract

The influence of electronic waste and attapulgite clay on lightweight polyester concrete

Mohamad,

Alzabeebee,

Albostami

et al. 2024

Innov. Infrastruct. Solut.

View full text Add to dashboard Cite

show abstract

Optimized punching shear design in steel fiber-reinforced slabs: Machine learning vs. evolutionary prediction models

Albostami,

Mohamad,

Alzabeebee

et al. 2025

Engineering Structures

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An optimized prediction of FRP bars in concrete bond strength employing soft computing techniques

Al-Hamd,

Albostami,

Alzabeebee

et al. 2024

Journal of Building Engineering

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Shear strength assessment of reinforced recycled aggregate concrete beams without stirrups using soft computing techniques

Cited by 4 publications

References 61 publications

The influence of electronic waste and attapulgite clay on lightweight polyester concrete

The influence of electronic waste and attapulgite clay on lightweight polyester concrete

Optimized punching shear design in steel fiber-reinforced slabs: Machine learning vs. evolutionary prediction models

An optimized prediction of FRP bars in concrete bond strength employing soft computing techniques

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