[ Etude du comportement de la résistance en compression du béton suite à la variation unimodale quantitative de ses composantes primaires ]
Volume 40, Issue 1, July 2023, Pages 219–227
Cirhuza Badesire Paterne1, Muhindo Wa Muhindo Abdias2, Aksanti Balola Jackson3, Bashige Germaine4, Koko Katumbi5, Gabriel Kashala6, Prince Badesire7, and François NGAPGUE8
1 Department of Civil Engineering, Université Libre des Pays des Grands Lacs (BP 368), Goma, North Kivu, RD Congo
2 Buildings and Publics Works Section, Institut du Batiment et des Travaux Publics, Butembo, RD Congo
3 Department of Civil Engineering, Université Libre des Pays des Grands Lacs (BP 368), Goma, North Kivu, RD Congo
4 Department of Civil Engineering, Université Libre des Pays des Grands Lacs (BP 368), Goma, North Kivu, RD Congo
5 Department of Civil Engineering, Université Libre des Pays des Grands Lacs (BP 368), Goma, North Kivu, RD Congo
6 Department of Civil Engineering, Université Libre des Pays des Grands Lacs (BP 368), Goma, North Kivu, RD Congo
7 Department of Civil Engineering, Université de Kinshasa (B.P. 127), Kinshasa, RD Congo
8 Institut Universitaire de Technologie Fotso Victor, Université de Dschang, BP134 Bandjoun, Cameroun
Original language: French
Copyright © 2023 ISSR Journals. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
This article presents the results of a study on the behavior of the compressive strength of a reference concrete formulated by the Dreux-Gorisse method, varying the dosage of water and cement by +/-10%, +/-20%, and +/-30%. The strength obtained for the reference concrete was 13.04MPa. However, an excessive change in the water dosage resulted in strengths of 8.438MPa, 7.05MPa, and 4.73MPa respectively for the dosages of +10%, +20%, and +30%. A deficient change in water dosage produced strengths of 14.418MPa, 15.465MPa, and 17.11MPa for the dosages of -10%, -20%, and -30%. For an excessive change in cement dosage, the strengths were 13.496MPa, 15.936MPa, and 21.575MPa respectively for the dosages of +10%, +20%, and +30%. A deficient change in the cement dosage showed strengths of 6.271MPa, 5.26MPa, and 3.207MPa for the dosages of -10%, -20%, and -30%. These results demonstrate that variations in these two components significantly affect the compressive strength of concrete. However, the change in cement dosage has a far greater impact on compressive strength than that of water.
Author Keywords: Cement dosage, Concrete, Compressive strength, Water dosage, Variation.
Volume 40, Issue 1, July 2023, Pages 219–227
Cirhuza Badesire Paterne1, Muhindo Wa Muhindo Abdias2, Aksanti Balola Jackson3, Bashige Germaine4, Koko Katumbi5, Gabriel Kashala6, Prince Badesire7, and François NGAPGUE8
1 Department of Civil Engineering, Université Libre des Pays des Grands Lacs (BP 368), Goma, North Kivu, RD Congo
2 Buildings and Publics Works Section, Institut du Batiment et des Travaux Publics, Butembo, RD Congo
3 Department of Civil Engineering, Université Libre des Pays des Grands Lacs (BP 368), Goma, North Kivu, RD Congo
4 Department of Civil Engineering, Université Libre des Pays des Grands Lacs (BP 368), Goma, North Kivu, RD Congo
5 Department of Civil Engineering, Université Libre des Pays des Grands Lacs (BP 368), Goma, North Kivu, RD Congo
6 Department of Civil Engineering, Université Libre des Pays des Grands Lacs (BP 368), Goma, North Kivu, RD Congo
7 Department of Civil Engineering, Université de Kinshasa (B.P. 127), Kinshasa, RD Congo
8 Institut Universitaire de Technologie Fotso Victor, Université de Dschang, BP134 Bandjoun, Cameroun
Original language: French
Copyright © 2023 ISSR Journals. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Abstract
This article presents the results of a study on the behavior of the compressive strength of a reference concrete formulated by the Dreux-Gorisse method, varying the dosage of water and cement by +/-10%, +/-20%, and +/-30%. The strength obtained for the reference concrete was 13.04MPa. However, an excessive change in the water dosage resulted in strengths of 8.438MPa, 7.05MPa, and 4.73MPa respectively for the dosages of +10%, +20%, and +30%. A deficient change in water dosage produced strengths of 14.418MPa, 15.465MPa, and 17.11MPa for the dosages of -10%, -20%, and -30%. For an excessive change in cement dosage, the strengths were 13.496MPa, 15.936MPa, and 21.575MPa respectively for the dosages of +10%, +20%, and +30%. A deficient change in the cement dosage showed strengths of 6.271MPa, 5.26MPa, and 3.207MPa for the dosages of -10%, -20%, and -30%. These results demonstrate that variations in these two components significantly affect the compressive strength of concrete. However, the change in cement dosage has a far greater impact on compressive strength than that of water.
Author Keywords: Cement dosage, Concrete, Compressive strength, Water dosage, Variation.
Abstract: (french)
Cet article présente les résultats d’une étude portant sur le comportement de la résistance à la compression d’un béton de référence formulé par méthode Dreux-Gorisse et faisant varier le dosage en eau et en ciment de +/-10%, +/-20%, et +/-30%. La résistance obtenue pour le béton de référence a été de 13,04MPa. Toutefois, une variation en excès du dosage en eau a entraîné des résistances de 8,438MPa, 7,05MPa, et 4,73MPa respectivement pour les dosages de +10%, +20%, et +30%. La variation en défaut du dosage en eau a donné des résistances de 14,418MPa, 15,465MPa, et 17,11MPa pour les dosages de -10%, -20%, et -30%. Pour la variation en excès du dosage en ciment, les résistances ont été de 13,496MPa, 15,936MPa, et 21,575MPa respectivement pour les dosages de +10%, +20%, et +30%. La variation en défaut du dosage en ciment a montré des résistances de 6,271MPa, 5,26MPa, et 3,207MPa pour les dosages de -10%, -20%, et -30%. Ces résultats démontrent que la variation de ces deux constituants affecte considérablement la résistance à la compression du béton. Toutefois, la variation du dosage en ciment influe largement sur la résistance à la compression par rapport à celle de l’eau.
Author Keywords: Béton, Dosage en Ciment, Dosage en béton, Résistance à la compression, Variation.
How to Cite this Article
Cirhuza Badesire Paterne, Muhindo Wa Muhindo Abdias, Aksanti Balola Jackson, Bashige Germaine, Koko Katumbi, Gabriel Kashala, Prince Badesire, and François NGAPGUE, “Study of concrete compressive strength behavior following quantitative unimodal variation of its primary components,” International Journal of Innovation and Applied Studies, vol. 40, no. 1, pp. 219–227, July 2023.