Comparison of Hook and Straight Steel Fibers Addition on Malaysian Fly Ash-Based Geopolymer Concrete on the Slump, Density, Water Absorption and Mechanical Properties.

Meor Ahmad Faris,Nurul Aida Mohd Mortar,Katarzyna Błoch,Mohammad Firdaus Abu Hashim,Bartłomiej Jeż,Mohd Mustafa Al Bakri Abdullah,Ratnasamy Muniandy,Paweł Palutkiewicz,Sebastian Garus,Mohd Fathullah Ghazali

doi:10.3390/ma14051310

Abstract

Geopolymer concrete has the potential to replace ordinary Portland cement which can reduce carbon dioxide emission to the environment. The addition of different amounts of steel fibers, as well as different types of end-shape fibers, could alter the performance of geopolymer concrete. The source of aluminosilicate (fly ash) used in the production of geopolymer concrete may lead to a different result. This study focuses on the comparison between Malaysian fly ash geopolymer concrete with the addition of hooked steel fibers and geopolymer concrete with the addition of straight-end steel fibers to the physical and mechanical properties. Malaysian fly ash was first characterized by X-ray fluorescence (XRF) to identify the chemical composition. The sample of steel fiber reinforced geopolymer concrete was produced by mixing fly ash, alkali activators, aggregates, and specific amounts of hook or straight steel fibers. The steel fibers addition for both types of fibers are 0%, 0.5%, 1.0%, 1.5%, and 2.0% by volume percentage. The samples were cured at room temperature. The physical properties (slump, density, and water absorption) of reinforced geopolymer concrete were studied. Meanwhile, a mechanical performance which is compressive, as well as the flexural strength was studied. The results show that the pattern in physical properties of geopolymer concrete for both types of fibers addition is almost similar where the slump is decreased with density and water absorption is increased with the increasing amount of fibers addition. However, the addition of hook steel fiber to the geopolymer concrete produced a lower slump than the addition of straight steel fibers. Meanwhile, the addition of hook steel fiber to the geopolymer concrete shows a higher density and water absorption compared to the sample with the addition of straight steel fibers. However, the difference is not significant. Besides, samples with the addition of hook steel fibers give better performance for compressive and flexural strength compared to the samples with the addition of straight steel fibers where the highest is at 1.0% of fibers addition.

Highlights

Geopolymer concrete has emerged in the last two decades as new engineering materials with the potential of becoming a significant element in the environmentally sustainable construction and construction industry [1]
This paper aims to study the effects of steel fibers as an addition to the physical and mechanical properties of Malaysian fly ash-based geopolymer concrete
Fly ash used in this experiment fulfils the fundamental as a source of material to be used as a precursor in a geopolymerization process where it is rich in Si and Al, which will be activated by alkali solution

Summary

Introduction

Geopolymer concrete has emerged in the last two decades as new engineering materials with the potential of becoming a significant element in the environmentally sustainable construction and construction industry [1]. A concrete geopolymer was studied by several researchers [2,3,4,5]. Geopolymer was developed for other applications including lightweight concrete [6], material for computer numerical control (CNC) cutting tools [7,8,9,10], piping materials [11], and water treatment [12]. The interfacial bonding carried out using the pull-out test have shown that Ordinary Portland Cement (OPC) mortars are generally excellent [13]. The works related to steel reinforcing fiber on Ordinary Portland Cement (OPC)

Objectives

Results

Conclusion