Quantification of Hydraulic Phase Contained in a Basic Oxygen Furnace Slag

AbstractThe aim of the work presented here was to quantify the mineralogical phases contained in a basic oxygen furnace slag (BOFS), and especially the hydraulic phases, so as to evaluate the reactivity of this material. The chemical and mineralogical characteristics of BOFS were analyzed. This slag...

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Bibliographic Details
Published in:Journal of materials in civil engineering 2014-04, Vol.26 (4), p.593-598
Main Authors: Mahieux, P. Y, Aubert, J. E, Escadeillas, G, Measson, M
Format: Article
Language:English
Subjects:
Aggregates and other concrete constituents
Applied sciences
Basic converters
Buildings. Public works
Cement concrete constituents
Civil Engineering
Concrete additives (fillers, pozzolanic and hydraulic materials)
Engineering Sciences
Exact sciences and technology
Fluid dynamics
Fluid flow
Hydraulics
Iron and steel making
Lime
Materials
Oxygen steel making
Slags
Technical Papers
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Summary:AbstractThe aim of the work presented here was to quantify the mineralogical phases contained in a basic oxygen furnace slag (BOFS), and especially the hydraulic phases, so as to evaluate the reactivity of this material. The chemical and mineralogical characteristics of BOFS were analyzed. This slag was essentially composed of calcium, iron, silicon, and magnesium oxides contained in five main minerals: calcium silicate oxides (β-Ca2SiO4 and Ca3SiO5), a solid solution of calcium aluminum ferrite oxides (Ca2Fe1.52Al0.48O5), a solid solution of magnesium iron oxides (MgO0.432FeO0.568), and free lime CaO. The Rietveld method was used to determine the amount of each mineral phase and led to the following mineralogical composition: β-Ca2SiO4=32%, Ca3SiO5=2%, Ca2Fe1.52Al0.48O5=26%, MgO0.432FeO0.568=22%, and CaO=18%. BOFS thus contained a significant amount of hydraulic phase (dicalcium silicate and free lime), which was confirmed by the study of its reactivity using a hydrated paste.
ISSN:0899-1561
1943-5533
DOI:10.1061/(ASCE)MT.1943-5533.0000867