Evaluation of the pozzolanic reactivity of two clays from Côte d'Ivoire for substitution of clinker in cement
Abstract
Developing new building materials with low environmental impact is a challenge in the current situation linked to global warming. This study, therefore, contributes to the valorization of local clays as natural pozzolans for the substitution of clinker in cement. Two clays, ME1 and ME2, from the city of Man in the western region of Côte d'Ivoire, which were calcined at 710°C, were used to conduct this study. The chemical analysis of the raw samples by ICP_AES revealed that they mainly comprise three oxides, namely, silica, alumina, and iron, with contents more significant than 70 wt.% of the sum of these three elements. The crystalline phases highlighted by X-ray diffraction showed the presence of quartz, kaolinite, and iron compounds (goethite and hematite) in the raw samples and only quartz and hematite in the calcined samples ME1_710°C and ME2_710°C following the dehydroxylation of kaolinite and goethite. Laser particle size testing highlighted a spread distribution of 3 populations centered at approximately 2, 10, and 39 µm for the raw samples and a single population centered at 39.23 and 133 µm for ME1_710°C and ME2_710°C, respectively. The results of the pozzolanic activity carried out by the saturated lime test showed a significant reactivity for the calcined samples with a Ca(OH)2 consumption capacity of more than 80 wt.% after 7 days compared to approximately 48 wt.% for the raw samples. The evaluation of the quantities of remaining Ca2+ and OH- ions showed that the concentrations of these two elements were below the solubility curve, indicating good pozzolanic reactivity of the calcined samples.
Full Text:
PDFReferences
P. J. M. Monteiro, S. A. Miller, A. Horvath, Towards Sustainable Concrete. Nat. Mater. 2017, 16 (7), 698–699.
B. Bajželj, J. M. Allwood, J.M. Cullen, Designing Climate Change Mitigation Plans That Add Up. Environ. Sci. Technol. 2013, 47 (14), 8062–8069.
IEA. Buildings: A Source of Enormous Untapped Efficiency Potential. 2021.
H. Du, K. H. Tan, Use of Waste Glass as Sand in Mortar: Part II–Alkali-Silica Reaction and Mitigation Methods. Cem. Concr. Compos. 2013, 35 (1), 118–126.
S. Saggai, W. Bouaka, A. Benhaddou, I. Belaid, Use of Glass Powder and Sand Dune in Concrete: Characterization and Performance. In Defect and Diffusion Forum; Trans Tech Publ, 2021; Vol. 406, pp 521–531.
S. Donatello, M. Tyrer, C. R. Cheeseman, Comparison of Test Methods to Assess Pozzolanic Activity. Cem. Concr. Compos. 2010, 32 (2), 121–127.
D. Ravikumar, S. Peethamparan, N. Neithalath, Structure and Strength of NaOH Activated Concretes Containing Fly Ash or GGBFS as the Sole Binder. Cem. Concr. Compos. 2010, 32 (6), 399–410.
A. Sepulcre-Aguilar, F. Hernández-Olivares, Assessment of Phase Formation in Lime-Based Mortars with Added Metakaolin, Portland Cement and Sepiolite, for Grouting of Historic Masonry. Cem. Concr. Res. 2010, 40 (1), 66–76.
D. V. Ribeiro, J. A. Labrincha, M. R. Morelli, Potential Use of Natural Red Mud as Pozzolan for Portland Cement. Mater. Res. 2011, 14, 60–66.
L. P. M.-S Kouakou, A. N. Kouamé, A. B. I. H. G. Doubi, N. Méité, J. T. Kangah, E. P. Zokou, L. K. Konan, Y. J. Andji-Yapi, Characterization of Two Clay Raw Materials from Côte d’Ivoire with a View to Enhancing Them in Eco-Construction. J. Miner. Mater. Charact. Eng. 2022, 10 (2), 198–208.
A. N. Kouamé, W. M. R. Manouan, L. P. M.-S. Kouakou, N. Meite, B. I. H. G. Doubi, E. P. Zokou, L. K. Konan, Influence of the Size of Soursop Seed Granules on the Mechanical and Water Properties of Compressed Earth Bricks. Int. J. Chem. 2023, 11 (2), 23–31.
Standard, C618-08a: Standard Specification for Coal Fly Ash and Raw or Calcined Natural Pozzolan for Use in Concrete, 2008.
C. Bich, J. Ambroise, J. Péra, Influence of Degree of Dehydroxylation on the Pozzolanic Activity of Metakaolin. Appl. Clay Sci. 2009, 44 (3–4), 194–200.
B. I. H. G. Doubi, A. N. Kouamé, L. K. Konan, M. Tognonvi, S. Oyetola, Thermal Conductivity of Compressed Earth Bricks Strengthening by Shea Butter Wastes with Cement. Mater. Sci. Appl. 2017, 8 (12), 848.
I. Sanou, M. Ouedraogo, H. Bamogo, N. Meité, M. Seynou, J.-E. Aubert, Y. Millogo, Microstructural, Physical, and Mechanical Characteristics of Adobes Amended with Cement-Metakaolin Mixtures. Emergent Mater. 2024, 7, 1203-1217.
M. Ouedraogo, H. Bamogo, I. Sanou, V. Mazars, J.-E. Aubert, Y. Millogo, Microstructural, Physical and Mechanical Characteristics of Adobes Reinforced with Sugarcane Bagasse. Buildings 2023, 13 (1), 117.
V. Poussardin, Calcined Clays and Marlstones as Supplementary Cementitious Materials. PhD Thesis, École centrale de Nantes ; Université de Sherbrooke (Québec, Canada), 2022.
A. Rojo, A. Phelipot-Mardelé, C. Lanos, L. Molez, Optimisation Du Processus d’activation Thermique Par Calcination Flash–Cas de Matériaux Argileux. Acad. J. Civ. Eng. 2016, 34 (1), 647–654.
A. N. Kouamé, B. I. H. G. Doubi, L. K. Konan, M. Tognonvi, S. Oyetola, The Effect of Shea Butter Wastes on Physical Properties of Compressed Earth Bricks (CEB) and Cement Stabilized. Aust J Basic Appl Sci 2020, 13, 19–26.
A. Gharzouni, I. Sobrados, S. Balouti, E. Joussein, S. Rossignol, Control of Polycondensation Reaction Generated from Different Metakaolins and Alkaline Solutions. J. Ceram. Sci. Technol. 2017, 8 (3), 365–376.
W. N'cho, A. Gharzouni, J. Jouin, A. Aimable, I. Sobrados, S. Rossignol, S. Effect of Mixing Metakaolins: Methodological Approach to Estimate Metakaolin Reactivity. Ceram. Int. 2023, 49 (12), 20334–20342.
R. Walker, S. Pavía, Physical Properties and Reactivity of Pozzolans, and Their Influence on the Properties of Lime–Pozzolan Pastes. Mater. Struct. 2011, 44 (6), 1139–1150.
DOI: http://dx.doi.org/10.13171/mjc02409271800kouamé
Refbacks
- There are currently no refbacks.
Copyright (c) 2024 Mediterranean Journal of Chemistry