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Residual stress-strain relationship for the biochar-based mortar after exposure to elevated temperature

Satheeskumar Navaratnam, Hendrik Wijaya, Pathmanathan Rajeev, Priyan Mendis, Kate Nguyen

2021Case Studies in Construction Materials39 citationsDOIOpen Access PDF

Abstract

The effects of elevated temperature on the compressive strength and stress-strain behaviour of biochar-based mortar were investigated in this research. A total of 39 cylindrical (100 × 200 mm) specimens were prepared with four mortar mixtures by replacing 0%, 5%, 10 % and 20 % of cement weight with biochar. The specimens were cured for 28 days and exposed to elevated temperatures of 200 °C, 450 °C and 700 °C before testing. Results show that increasing replacement rate of biochar reduces the compressive strength at room temperature as well as residual strength after being exposed to elevated temperature. The 5% weight of cement replaced by biochar performed better than other specimen at elevated temperature as it retains about 88 %, 76 % and 38 % of compressive strength, respectively after being exposed to 200 °C, 450 °C and 700 °C. The study also established the relationship among biochar mix ratio, elevated temperature, elastic modulus and peak compressive strength. Finally, a new stress-strain model was developed and validated to predict the axial behaviour of biochar-based mortar with varying biochar mix ratio and elevated temperature. This model can be used to predict the post fire mechanical behaviour of biochar-based mortar.

Topics & Concepts

BiocharCompressive strengthMaterials scienceMortarComposite materialStress (linguistics)Residual strengthWaste managementPyrolysisLinguisticsEngineeringPhilosophyFire effects on concrete materialsConcrete and Cement Materials ResearchStructural Response to Dynamic Loads
Residual stress-strain relationship for the biochar-based mortar after exposure to elevated temperature | Litcius