Compressive Strength of Ambient- and Heat-Cured Fly Ash Geopolymer Concrete after High-Temperature Exposure

Authors

  • Prashant G Sawarkar Ph.D scholar, Department of Civil Engineering, G H Raisoni University, Amravati 444701
  • Amol Pote Professor, Department of Civil Engineering,G H Raisoni college of Engineering & Management, Pune 412207
  • Anant LalMurmu Assistant Professor, Department of Civil Engineering, NetajiSubhas University of Technology, West campus, New Delhi 110073
  • Harshal G Mundle Assistant Professor, Department of Civil Engineering, G H Raisoni college of Engineering and Management, Nagpur 440016

Keywords:

low-calcium fly ash, geopolymer concrete, high temperatures, ambient-cured, heat-cured, temperature gradient

Abstract

This paper investigates the behavior of low-calcium fly ash geopolymer concrete subjected to high temperatures in both ambient-cured and heat-cured situations. The temperature at which concrete samples were gradually heated to 100, 200, 400, 600, 800, and 1000°C was maintained at 5°C per minute. The impact of elevated temperatures on geopolymer concrete was evaluated by the use of microstructural analysis, visual inspection, mass loss measurement, fracture evaluation, and residual strength determination. Interestingly, the cross-sectional and surface fractures peaked at 800°C and decreased around 1000°C. Based on the findings, all of the concrete samples remained strong after two hours at 600°C.

Downloads

Published

2024-05-26

How to Cite

Prashant G Sawarkar, Amol Pote, Anant LalMurmu, & Harshal G Mundle. (2024). Compressive Strength of Ambient- and Heat-Cured Fly Ash Geopolymer Concrete after High-Temperature Exposure. Journal of Computational Analysis and Applications (JoCAAA), 33(06), 743–748. Retrieved from https://eudoxuspress.com/index.php/pub/article/view/928

Issue

Vol. 33 No. 06 (2024): JOCAAA

Section

Articles

License

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.