Litcius/Paper detail

Fly-ash based geopolymer mortar for high-temperature application – Effect of slag addition

Izabela Hager, Mateusz Sitarz, Katarzyna Mróz

2021Journal of Cleaner Production232 citationsDOIOpen Access PDF

Abstract

Geopolymers are used as a Portland cement alternative in some applications. The motivation for using geopolymers is their capacity of the by-products and waste incorporation, contributing to a cleaner environment. The present study aims to evaluate the impact of temperature exposure (up to 1000 °C) on the microstructure and the mechanical properties of the geopolymer mortars. Four mixes were investigated with fly ash as the main precursor with four levels of slag replacement 0, 10, 30, and 50 wt%. To evaluate damage evolution, mechanical performances and identification tests were performed: ultrasonic pulse velocity, scanning electron microscope, mercury intrusion porosimetry, thermal strains measurements, differential thermal analysis and thermogravimetry. The research aimed to develop a mortar composition that is thermally stable at high temperature. Although slag addition improves the mechanical performances of fly ash geopolymer mortar considerably (compressive strength above 100 MPa), the mortar with no slag addition yielded better performances at high temperature. In this study, manufactured mortars exhibited a 30% strength increase and doubled tensile strength at 200 °C. Moreover, for developed mixes, a compressive strength recovery of up to 90% at 1000 °C was observed, demonstrating the potential of fly ash geopolymer as high-temperature application material.

Topics & Concepts

Fly ashGeopolymerMaterials scienceCompressive strengthMortarUltimate tensile strengthPortland cementComposite materialMicrostructureSlag (welding)MetallurgyCementConcrete and Cement Materials ResearchFire effects on concrete materialsInnovative concrete reinforcement materials