Journal Published Online: 21 May 2024
Volume 52, Issue 4

Microstructure Analysis, Piezoelectrical Resistivity, and Compressive Strength Concrete Incorporated with Waste Steel Slag as a Fine Aggregate Replacement

CODEN: JTEVAB

Abstract

This study aims to investigate the effect of waste steel slag (SS) as partially replaced with cement and fine aggregate on conventional concrete for different mixes named M25, M35, and M47 in terms of compressive strength (CS), electrical resistivity (ER), and piezoresistivity behavior. SS is a molten mixture of silicates and oxides that solidifies upon cooling, a byproduct of the steel-making process. Before doing the design experiments, the optimum value of SS as powder and fine aggregate was determined using seven different mixes to investigate the effect of different SS sizes on the CS and piezoresistivity of normal concrete. Based on the results achieved, the optimum value and size of SS were selected to modify and investigate the effect of SS on three different mixes of conventional concrete named M25, M35, and M47 in terms of CS, ER, and piezoresistivity behavior. The resistivity of all concrete mixes was measured using four-probe from early curing to 28 days of curing time. The results demonstrated that M47 mix modified with SS has lower resistivity than the rest of the concrete mixes. The results of piezoresistivity behavior indicated that M47 mix modified with SS has a higher resistivity change while applying stress at 3 days of curing compared to the M25 and M35 concrete mix modified with SS by 44.1 % and 37.6 %, respectively. The Vipulandanan p-q model was applied to predict both ER versus time and change of resistivity versus stress for all mixes. The results demonstrated that the model predicted the change of resistivity versus applied stress with a high coefficient of determination that varied between 0.82 and 0.989, and a low root mean square error changed between 0.81 Ω.m and 7.94 Ω.m.

Author Information

Piro, Nzar Shakr
Civil Engineering Department, Faculty of Engineering, Soran University, Erbil Kurdistan Region, Kurdistan, Iraq Scientific Research Centre, Soran University, Erbil Kurdistan Region, Kurdistan, Iraq
Mohammed, Ahmed Salih
Civil Engineering Department, College of Engineering, University of Sulaimani, Sulaimani Kurdistan Region, Iraq
Hamad, Samir M.
Scientific Research Centre, Soran University, Erbil Kurdistan Region, Kurdistan, Iraq
Pages: 25
Price: $25.00
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Details
Stock #: JTE20230588
ISSN: 0090-3973
DOI: 10.1520/JTE20230588