Physico-Chemical Studies and Improving the Strength of Earth Bricks Stabilized with Crushed Cellulose Paper: The Case of the Urban Communities of Mamou and Kouroussa
The aim of this study is to enhance the value of local earth materials used in the construction of certain homes in the Republic of Guinea. Thus, a trial study to improve the quality of mud bricks using paper fibers obtained by grinding and soaking in water and then drying were used as a stabilizer in the manufacture of these mud bricks from the sample of two sites Dounkiwal (DK) (in Mamou and the sample from the urban commune of Kouroussa). To do this, certain methods and means of identification were carried out, namely: geotechnical, mineralogical and chemical analyses. Sample DK from Mamou has a silty-clay geotechnical characteristic with a plasticity index Ip of 12.75%. However, mineralogical and chemical studies showed that sample Dounkiwal (DK) (Mamou) contains a high proportion of silica and iron oxides (79.63%) and Fe2O3 (11.85%), associated with other alkaline earth oxides and ions: CaO; MgO;
;
, i.e. 3.96%; 0.96%; 0.28% and 0.039% respectively. Its loss on ignition (LOI) and insoluble residues are 15.40% and 56.36%. The evaluation of the number of huts in Upper and Middle Guinea showed that the populations of these areas have been using mud bricks for several decades in the construction of dwellings. The average value found for the compressive strength of these bricks (from samples I, II and III from Kouroussa) is 0.16 MPa. This value is appreciable in the construction of mud houses.
References
[1]
(2024) Construction et rénovation en terre crue. https://www.lamaisonsaintgobain.fr/guides-travaux/renovation-energetique-habitat-durable/terre-crue-construction-renovation
[2]
Le plus vieux matériau de construction au monde est aussi le plus écoresponsable. https://www.eco-conception.fr/articles/h/le-plus-vieux-materiau-de-construction-au-monde-est-aussi-le-plus-ecoresponsable.html#:~:text=Il%20y%20a%2011%20000,de%20construction%20dans%20le%20monde
[3]
Construction en terre crue. https://www.guidebatimentdurable.brussels/construction-terre-crue
[4]
Narcisse, M., Paul, L.K. and Yannick, D.T. (2017) Etude des caractéristiques mécaniques d’une brique en terre stabilisée à l’aide de la mélasse de canne à sucre. Revue du Cames-Sciences Appliquées et de l’Ingénieur, 2, 1-9.
[5]
Abd-Elkareem, E.A. (2022) A Study of the Causes of Damage to the Walls of the Karnak Temples, Which Are Built of Mud Bricks, Luxor and Suggested Methods of Treatment. OpenJournalofGeology, 12, 565-585. https://doi.org/10.4236/ojg.2022.127026
[6]
Laibi, A.B., Gomina, M., Sorgho, B., Sagbo, E., Blanchart, P., Boutouil, M., et al. (2017) Caractérisation physico-chimique et géotechnique de deux sites argileux du Bénin en vue de leur valorisation dans l’éco-construction. InternationalJournalofBiologicalandChemicalSciences, 11, 499-514. https://doi.org/10.4314/ijbcs.v11i1.40
[7]
Henri, M.R., Antoine, R.R.K., Dimbimalala, M.R., Alain, M.S.R., Zolimboahangy, R., Rija, L.R. and Velomanantsoa, G.R. (202) Etude et Essai de Fabrication de Matériaux Geopolymeriques à Base de Cendres de Balles de Riz qui Résistent aux Agressions Chimiques. International Journal of Progressive Sciences and Technologies, 21, 272-293.
[8]
Mamady, K., Adama, M.S., Aboubacar, D., Mamadou, M.S., Abdoulaye, I.C. and Mamoudou, C. (2023) Physico-Chemical Studies of the Bricks in Mud Raw Used in the Construction of Century-Old Huts (Straw Huts): Case of the Urban Commune of Kouroussa. JournalofEnvironmentalScienceandEngineeringA, 12, 201-213. https://doi.org/10.17265/2162-5298/2023.06.001
[9]
(2022) Valorisation des papiers usagés en Afrique: Quels avantages. https://www.expadd.org/valorisation-des-papiers-usages-en-afrique-quels-avantages/#:~:text=R%C3%A9duit%20le%20volume%20des%20d%C3%A9charges,recycl%C3%A9%20sauve%20environ%2017%20arbres
[10]
Recyclage Papier: Tout savoir sur son cycle de vie. https://www.groupetgw-recyclage.com/2021/10/12/recyclage-dechet-papier-tout-savoir-sur-son-cycle-de-vie/
[11]
Référence de la norme: NF EN 196-2. https://www.boutique.afnor.org/fr-fr/norme/nf-en-1962/methodes-dessais-des-ciments-partie-2-analyse-chimique-des-ciments/fa178507/41905
[12]
Ramanandraibe, T.M., Rakotomamonjy, P., Robisonarison, G.J. and Andrianarison, E.R. (2023) Amélioration Des Qualités Mécaniques D’une Brique De Terre Comprimée Stabilisée Au Ciment Par Trempe De Consolidation Au Silicate De Soude. InternationalJournalofProgressiveSciencesandTechnologies, 38, 388-401. https://doi.org/10.52155/ijpsat.v38.1.5195
[13]
(2018) NF EN ISO 17892-12. Reconnaissance et Essais-Essais de laboratoire sur les sols—Détermination des limites de liquidité et de plasticité.
[14]
Silicate: qu’est-ce que c’est? https://www.futura-sciences.com/planete/definitions/geologie-silicate-1613/
[15]
Limon argileux. https://wiki.tripleperformance.fr/wiki/Limon_argileux
[16]
Indice de plasticité. https://www.aquaportail.com/dictionnaire/definition/6519/indice-de-plasticite
[17]
(2001) Norme XP P 13-901. Blocs de terre comprimée pour murs et cloisons: Définitions-Spécifications-Méthodes d’essais-Conditions de réception. AFNOR.
(2020) Guide des bonnes pratiques de la construction en terre crue. CREBA. (In French)
[21]
Issaka Abdoulkader, M., Salmanou Souleymane, I.M., Bouba, H., Toure Amadou, A., Zibo, G. and Ibrahim, W. (2021) CaractÃérisation Physico-Chimique Et MinÃéralogique des Argiles de la CarriÃére de Mirriah, RÃégion de Zinder, UtilisÃées dans la Poterie. European Scientific Journal, 17, 120. https://doi.org/10.19044/esj.2021.v17n3p120
[22]
(2022) Valorisation de matières premières alternatives dans les matériaux pour la construction durable Elodie Prud’Homme. Institut National des Sciences Appliquées de Lyon; Université Lyon 1-Claude Bernard. https://hal.science/tel-03829130
