Litcius/Paper detail

Effect of crystalline admixtures on shrinkage and alkali-silica reaction of biochar-cementitious composites

Xuqun Lin, Arnaud Castel, Zhizhong Deng, Biqin Dong, Xuanrui Zhang, S.S. Zhang, Wengui Li

2024Developments in the Built Environment13 citationsDOIOpen Access PDF

Abstract

This study investigated effects of crystalline admixture (CA) on shrinkage and alkali-silica reaction behaviours of cementitious composites. Addition of 1-1.5 wt% superabsorbent polymer (SAP) completely mitigated autogenous shrinkage while slightly increasing the 120-day total shrinkage of the SP-cement composite by 5.7%, resulting in the highest apparent porosity. 1-1.5 wt% CA addition did not affect the autogenous shrinkage while slightly reducing the 120-day total shrinkage by 10.1%. The combination of CA and waste wood biochar (WWB) reduced autogenous shrinkage by 24.23% and 120-day total shrinkage by 23.6%, resulting in the lowest apparent porosity. The formation of hydration products in the WWB pores and on WWB surface densified the cementitious matrix, leading to a reduction in water evaporation. Furthermore, for specimens exposed to 1M NaOH solution at 80 °C, CA addition significantly reduced the 120-day expansion by 50.6%, while the combination of CA and WWB addition reduced the 120-day expansion by 42.9%.

Topics & Concepts

ShrinkageMaterials scienceComposite materialBiocharPorosityCementitiousComposite numberCementPyrolysisChemistryOrganic chemistryConcrete and Cement Materials ResearchInnovative concrete reinforcement materialsMicrobial Applications in Construction Materials