Evaluation of the Pozzolanic Activity of Metakaolin, Glass Powder and Silica Powder for Use in Cementitious Mortars

Authors

  • Issiaka SANOU Laboratoire de Chimie et Energies Renouvelables (LaCER), Unité de Formation et de Recherche en Sciences Exactes et Appliquées (UFR/SEA), Université Nazi BONI, Burkina Faso.
  • Saada ZOUNGRANA Laboratoire de Chimie et Energies Renouvelables (LaCER), Unité de Formation et de Recherche en Sciences Exactes et Appliquées (UFR/SEA), Université Nazi BONI, Burkina Faso.
  • Moussa OUEDRAOGO Laboratoire de Chimie et Energies Renouvelables (LaCER), Unité de Formation et de Recherche en Sciences Exactes et Appliquées (UFR/SEA), Université Nazi BONI, Burkina Faso. https://orcid.org/0000-0002-3915-2672
  • Ali SANOU Institut National Polytechnique Félix Houphouët Boigny, Unité Mixte de Recherche et d’Innovation en Sciences Agronomiques et Procédés de Transformation (SAPT), Laboratoire des Procédés Industriels de Synthèses de l’Environnement et des Energies Nouvelles (LAPISEN), Yamoussoukro; École Normale Supérieure, Laboratoire des Sciences Physiques Fondamentales et Appliquées (LSFPA), Abidjan, Côte d’Ivoire. Corresponding author: ali.sanou@inphb.ci https://orcid.org/0000-0003-1873-4777
  • Younoussa MILLOGO Laboratoire de Chimie et Energies Renouvelables (LaCER), Unité de Formation et de Recherche en Sciences Exactes et Appliquées (UFR/SEA), Université Nazi BONI, Burkina Faso. https://orcid.org/0000-0001-5969-157X

DOI:

https://doi.org/10.24193/subbchem.2024.4.04

Keywords:

Glass powder, Metakaolin, Silica powder, Cementitious mortars, Compressive strength

Abstract

The objective of this study is to evaluate the pozzolanic activity of metakaolin, glass powder and silica powder for use in cementitious mortars. Thus, metakaolin was produced by calcination at 700 °C of a clay soil from Burkina composed of kaolinite (62 wt.%), quartz (30 wt.%) and goethite (6 wt.%). Glass powder consists of amorphous silica and silica powder essentially contains quartz. The chemical characterization of materials showed that the metakaolin and the silica powder belong to the category of type F pozzolans while the silica powder would be type N. The lime saturation test reveals low kinetics of lime fixation by the silica powder. On the other hand, the rate of lime fixation by metakaolin and glass powder increases with treatment time. The pozzolanic index of metakaolin and glass powder at 28 and 90 days is higher than the minimum value of 75% required by the ASTM C618 standard. The presence of metakaolin and glass powder within the cement matrix improves the compressive strength of the resulting mortars due to their good pozzolanic reactivity inducing the formation of calcium silicates hydrated (CSH). Metakaolin and glass powder are therefore suitable for replacing cement in the production of mortars in the construction field.

References

1. F. Ganon; A. Yameogo; B. Sorgho; L. Zerbo; M. Seynou; Y. Millogo; R. Ouedraogo; ChIBA. 2015, 16, 371–383.

2. T. Halmagyi, E. Mosonyi, J. Fazakas, Studia UBB Chemia, LXIII, 1, 2018 (p. 73-86).

3. K.L. Scrivener; V.M. John; E.M. Gartner; Cement and Concrete Research. 2018, 114, 2–26.

4. M.Z. Al-mulali; H. Awang; H.P.S. Abdul Khalil; Z.S. Aljoumaily: Cement and Concrete Composites. 2015, 55, 129–138.

5. A.P. Fantilli; D. Jóźwiak-Niedźwiedzka; Materials. 2021, 14, 2291.

6. O. Chaib; M. Mouli; M. Hanifi; M. Hamadache; J. Mater. Environ. Sci. 2016,7, 422–428.

7. R. Harbi; R. Derabla; Z. Nafa; Construction and Building Materials. 2017, 152, 632–641.

8. M. Kamali; A. Ghahremaninezhad; Construction and Building Materials. 2015, 98, 407–416.

9. M. Seynou; Y. Millogo; L. Zerbo; I. Sanou; F. Ganon; R. Ouedraogo; K. Kaboré; JMMCE. 2016, 04, 195–209.

10. Y. Wang; Z. Shui; Y. Huang; T. Sun; R. Yu; G. Wang; Construction and Building Materials. 2018, 172, 19–28.

11. K.A. Melo; A.M.P. Carneiro; Construction and Building Materials. 2010, 24, 1529–1535.

12. F. Cassagnabère; G. Escadeillas; M. Mouret; Construction and Building Materials. 2009, 23, 775–784.

13. K. Weise; N. Ukrainczyk; E. Koenders; Materials & Design. 2023, 231, 112062.

14. F. Sinngu; S.O. Ekolu; A. Naghizadeh; H.A. Quainoo; Developments in the Built Environment. 2023, 14, 100154.

15. Y. Wang; Y. Li; Y. Su; X. He; B. Strnadel; Advanced Powder Technology. 2022, 33, 103690.

16. S. Donatello; M. Tyrer; C.R. Cheeseman; Cement and Concrete Composites. 2010, 32, 121–127.

17. M. C. Sekhar, M. H. Kumar, S. L. Raju, Materials Today: Proceedings. 2023, 03, 713

18. I. Sanou; M. Ouedraogo; H. Bamogo; N. Meité; M. Seynou; J.-E. Aubert; Y. Millogo; Emergent Mater. 2024, 7, 1203–1217.

19. S.O. Sore; A. Messan; E. Prud’homme; G. Escadeillas; F. Tsobnang; Construction and Building Materials. 2018, 165, 333–345.

20. G. Jozanikohan; M.N. Abarghooei; J Petrol Explor Prod Technol. 2022, 12, 2093–2106.

21. C. Niculăescu, L. Olar, R. Stefan, M. Todica, C-V. Pop, Studia UBB Chemia, LXIII, 2, 2018 (p. 63-70)

22. I. Sanou; M. Sawadogo; M. Seynou; L. Zerbo; R. Ouedraogo; JMMCE. 2019, 07, 373–384.

23. ASTM; ASTM-C618-08: Standard Specification for coal Fly Ash and Raw or Calcined Natural Pozzolan for Use in Concrete, West Conshohocken, PA : Annual Book of ASTM standards, 2008

24. M. Ouedraogo; M. Sawadogo; I. Sanou; M. Barro; S. Nassio; M. Seynou; L. Zerbo; Results in Materials. 2022, 14, 100275.

25. K. Dao; M. Ouedraogo; Y. Millogo; J.-E. Aubert; M. Gomina; Construction and Building Materials. 2018, 158, 84–96.

26. Y. Millogo; J.-C. Morel; K. Traoré; R. Ouedraogo; Construction and Building Materials. 2012, 26, 663–669.

27. G. Dal Poggetto; P. Kittisayarm; S. Pintasiri; P. Chiyasak; C. Leonelli; D. Chaysuwan; Polymers. 2022, 14, 5091.

28. Y. Millogo; M. Hajjaji; R. Ouedraogo; Construction and Building Materials. 2008, 22, 2386–2392.

29. S.S. Ibrahim; A.A. Hagrass; T.R. Boulos; S.I. Youssef; F.I. El-Hossiny; M.R. Moharam; JMMCE. 2018, 06, 86–104.

30. I. Sanou; M. Seynou; L. Zerbo; R. Ouedraogo; SJC. 2019, 7, 1.

31. N. Méité; L.K. Konan; M.T. Tognonvi; B.I.H.G. Doubi; M. Gomina; S. Oyetola; Carbohydrate Polymers. 2021, 254, 117322.

32. M. Sawadogo; I. Sanou; Y. Dah; B. Traoré; Y. Sawadogo; D. Samaké; C. Dembelé; L. Zerbo; M. Seynou; Journal de la Société Ouest-Africaine de Chimie. 2021, 050, 50–56.

33. AFNOR; NF P15-403 : Sable normal et mortier normal, 1996.

34. AFNOR; NF P15-471 - Méthodes d’essais des ciments: Détermination des résistances mécaniques, 1990.

Downloads

Published

2024-12-18

How to Cite

SANOU, I., ZOUNGRANA, S., OUEDRAOGO, M., SANOU, A., & MILLOGO, Y. (2024). Evaluation of the Pozzolanic Activity of Metakaolin, Glass Powder and Silica Powder for Use in Cementitious Mortars. Studia Universitatis Babeș-Bolyai Chemia, 69(4), 49–66. https://doi.org/10.24193/subbchem.2024.4.04

Issue

Volume 69, No. 4, 2024

Section

Articles

License

Copyright (c) 2024 Studia Universitatis Babeș-Bolyai Chemia

Creative Commons License

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

Similar Articles

1 2 3 4 5 6 7 8 9 > >> 

You may also start an advanced similarity search for this article.