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Constitutive Behaviour of a Clay Stabilised with Alkali-Activated Cement Based on Blast Furnace Slag

Author

Listed:
  • Manuela Corrêa-Silva

    (Institute for Sustainability and Innovation in Structural Engineering (ISISE), Department of Civil Engineering, University of Minho, 4800-058 Guimarães, Portugal)

  • Nuno Cristelo

    (Chemistry Research Centre-Vila Real (CQ-VR), Department of Engineering, University of Trás-os-Montes e Alto Douro, 5000-801 Vila Real, Portugal)

  • Mohamed Rouainia

    (School of Engineering, Newcastle University, Newcastle upon Tyne NE17RU, UK)

  • Nuno Araújo

    (Institute for Sustainability and Innovation in Structural Engineering (ISISE), Department of Civil Engineering, University of Minho, 4800-058 Guimarães, Portugal)

  • Tiago Miranda

    (Institute for Sustainability and Innovation in Structural Engineering (ISISE), Institute of Science and Innovation for Bio-Sustainability (IB-S), Department of Civil Engineering, University of Minho, 4800-058 Guimarães, Portugal)

Abstract

Alkaline cements have been extensively tested for soil stabilisation in the last decade. However, only a few studies have focused on the assessment of such performance by establishing the constitutive behaviour of the cement. In this paper, we focus on the mechanical behaviour, using triaxial testing of a clay with high water content stabilised with an alkali-activated binder and the subsequent prediction of the experimental stress–strain response using a kinematic hardening constitutive model initially developed for natural clays. Monotonic consolidated undrained triaxial tests were conducted on reconstituted and stabilised clay specimens cured for 28 days to evaluate the effects of cementation on the overall shear behaviour. Alkali-activated binder was synthetised from blast furnace slag and sodium hydroxide. Scanning electron microscopy (SEM), energy dispersive spectroscopy (EDS), and X-ray diffraction (XRD) were performed to study the microstructure, whereas leachate analyses were performed after 28 and 90 days of curing to investigate the contamination potential. The main product formed was calcium aluminosilicate hydrate (C-A-S-H) with a low CaO/SiO 2 ratio, and no risk of soil contamination was found. The compressibility and undrained shear strength in the pre-yield state was found to be independent of the initial mean effective stress ( p ’ 0 ), unlike what was observed in the post-yield state, where the shear strength seemed to be affected by p ’ 0 . The model provided reliable predictions of the experimental results and captured the main features of the artificially cemented clay for the tested p ’ 0 range. Such studies are fundamental to establish adequate confidence in such alternative binders—an essential aspect if their use is to become widespread in the near future.

Suggested Citation

  • Manuela Corrêa-Silva & Nuno Cristelo & Mohamed Rouainia & Nuno Araújo & Tiago Miranda, 2022. "Constitutive Behaviour of a Clay Stabilised with Alkali-Activated Cement Based on Blast Furnace Slag," Sustainability, MDPI, vol. 14(21), pages 1-21, October.
  • Handle: RePEc:gam:jsusta:v:14:y:2022:i:21:p:13736-:d:951159
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    Cited by:

    1. Per Lindh & Polina Lemenkova, 2023. "Effects of Water—Binder Ratio on Strength and Seismic Behavior of Stabilized Soil from Kongshavn, Port of Oslo," Sustainability, MDPI, vol. 15(15), pages 1-27, August.

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