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The Failure Mechanisms of Precast Geopolymer after Water Immersion

Shunfeng Wang, Long Yu, Linglin Xu, Kai Wu, Zhenghong Yang

2021Materials22 citationsDOIOpen Access PDF

Abstract

Precast geopolymers with lower water/binder (0.14), which mainly consists of alkali solution, fly ash (FA) and steel slag (SS), were manufactured through molding pressing technology. The failure mechanisms of precast geopolymers after water immersion were studied by testing the loss of compressive strength, the pH of the leaching solution, the concentration of ions (Na+, Ca2+, Si4+ and Al3+), the evolution of phases, pore structure and morphology, and further discussion of the regulation evolution was performed. The results show that the harmful pores (>50 nm) of geopolymers progressively decrease from 70% to 50% after 28 days of water immersion when the content of steel slag increases from 0 to 80 wt.%. Compressive strength of geopolymers sharply reduces in the first 3 days and then increases during the water immersion process, but the phase composition varies slightly. Furthermore, increasing the content of steel slag could decrease the total porosity and further prevent the water resistance.

Topics & Concepts

GeopolymerPrecast concreteMaterials scienceCompressive strengthPorosityLeaching (pedology)Composite materialFly ashImmersion (mathematics)Geopolymer cementSoil waterEnvironmental scienceHistoryArchaeologyPure mathematicsMathematicsSoil scienceConcrete and Cement Materials ResearchInnovative concrete reinforcement materialsMagnesium Oxide Properties and Applications
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