Litcius/Paper detail

Engineering Properties of PVA Fibre-Reinforced Geopolymer Mortar Containing Waste Oyster Shells

Ziming Deng, Zhangfeng Yang, Jin Bian, Xinxiang Pan, Guanglin Wu, Fei Guo, Ruizhi Fu, Hongjin Yan, Zijun Deng, Siqi Chen

2022Materials31 citationsDOIOpen Access PDF

Abstract

Recycling crushed waste oyster shells (WOS) as a fine aggregate is an attractive method of disposal. However, its use in geopolymer mortar has not been reported. The influence of PVA fibres on the engineering properties of the new geopolymer mortar is still unclear. To bridge the gap, this study investigated the influence of various PVA fibre contents (0–1.05 vol%) on the flowability, compressive, flexural strengths, drying shrinkage, sorptivity, chloride resistance, porosity, fibre dispersion, embodied CO2 emissions (ECO2e), and embodied energy (EE) of the geopolymer mortar. The results indicated that the inclusion of 0.15–1.05 vol% of PVA fibres improved the flexural strength by 10.10–42.31% and reduced the drying shrinkage by 13.37–65.79%. The flowability and compressive strength decreased by 10.78–34.28% and 7.50–27.65%, respectively, but they were sufficient for construction. The sorptivity increased by 1.45–15.16%, and the chloride resistance decreased by 15.09–56.35%, but the geopolymer mortar was still classified as low chloride penetrability. In summary, the optimal content of PVA fibres is 0.45 vol%, and the geopolymer mortar has good engineering properties and eco-efficiency. The cost analysis and high-temperature resistance of the geopolymer mortar are neglected in this study, which should be evaluated in future work.

Topics & Concepts

MortarGeopolymerMaterials scienceComposite materialOysterGeopolymer cementCompressive strengthWaste managementEngineeringGeologyOceanographyConcrete and Cement Materials ResearchMaterials Engineering and ProcessingInnovations in Concrete and Construction Materials