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Fluvial Sediments as SCMs: Characterization, Pozzolanic Performance, and Optimization of Equivalent Binder

AbstractThis paper presents an assessment of recycling of thermally treated fluvial sediments as a supplementary cementitious material (SCM). Different calcination treatments were conducted with temperatures ranging between 450°C and 950°C. For each calcined sediment, a detailed characterization was...

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Published in:	Journal of materials in civil engineering 2022-02, Vol.34 (2)
Main Authors:	Bouchikhi, Abdelhadi, Safhi, Amine el Mahdi, Rivard, Patrice, Snellings, Ruben, Abriak, Nor-Edine
Format:	Article
Language:	English
Subjects:	Building materials Cements Civil engineering Compressive strength Concrete properties Design of experiments Design optimization Engineering Sciences Equivalence Hydration Kinetics Roasting Sediments Technical Papers
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creator	Bouchikhi, Abdelhadi Safhi, Amine el Mahdi Rivard, Patrice Snellings, Ruben Abriak, Nor-Edine
description	AbstractThis paper presents an assessment of recycling of thermally treated fluvial sediments as a supplementary cementitious material (SCM). Different calcination treatments were conducted with temperatures ranging between 450°C and 950°C. For each calcined sediment, a detailed characterization was carried out. Subsequently, blended cements containing 25% calcined sediments (CS) were prepared and tested, including portlandite consumption, hydration kinetics, and compressive strength development (41 and 52 MPa at 7 and 90 days, respectively). The results showed that blended cement based on CS at 750°C provided the most favorable hydration kinetics and the highest compressive strength. An optimization design of experiment was followed to maximize the substitution rate of CS. The resulting multivariable function suggests a replacement rate up to 20% to produce a blended cement equivalent to CEM II 52.5 N, and up to 30% to produce a cement equivalent to CEM II 42.5 N. The reported technoenvironmental findings corroborate the use of CS as SCMs and motivate future research on their effect on concrete properties.
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source	American Society Of Civil Engineers ASCE Journals
subjects	Building materials Cements Civil engineering Compressive strength Concrete properties Design of experiments Design optimization Engineering Sciences Equivalence Hydration Kinetics Roasting Sediments Technical Papers
title	Fluvial Sediments as SCMs: Characterization, Pozzolanic Performance, and Optimization of Equivalent Binder
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