Kalifala Dao scite author profile

The main objectives of this work were to manufacture adobes with good mechanical properties, even in a wet environment, and low thermal conductivity so as to give the population homes that provided better thermal comfort than cement-based constructions. For this purpose, clayey raw material from Burkina Faso, mainly composed of quartz (49 wt.%), kaolinite (28 wt.%), goethite (7 wt.%) and muscovite (9 wt.%) was mixed with up to 12 wt.% of cement to manufacture adobes. Various characterization techniques were implemented to assess the microstructure of these materials: X-ray diffraction, infrared spectrometry, differential scanning calorimetry, scanning electron microscopy and energy dispersive spectrometry. Their physical properties were also investigated (through water absorption, spray test, apparent density, porosity and thermal conductivity) as their mechanical

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Physical, thermal and mechanical properties of adobes stabilized with fonio (Digitaria exilis) straw

Ouédraogo

Dao

Millogo

et al. 2019

Journal of Building Engineering

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This study deals with the influence of fonio straw on the physical, thermal and mechanical properties of adobes. The raw materials (soil and fonio straw from Burkina Faso) were characterized from the chemical (ICP-AES), mineralogical (XRD, DSC-TGA, IR), geotechnical (particle size distribution, Atterberg limits, methylene blue value) and microstructural (SEM-EDS) points of view. The physical (thermal conductivity, capillarity water absorption, porosity, erodibility) and mechanical (compressive and flexural strength) properties of the adobes were studied with specific attention paid to their damage and fracture behavior. Because of the biochemical composition of fonio straw (presence of quasicrystalline cellulose and hemicelluloses, which are hydrophilic compounds), its association with the clay matrix increased water absorption and was accompanied by a significant porosity due to the air trapped during mixing. The insulating character of the cellulose and the low density resulting from the high porosity contributed to an appreciable reduction of the thermal conductivity of these adobes. The use of small amounts of fonio straw improved the mechanical properties of the adobes and made them less brittle. This improvement was linked to the good adhesion between fonio straw and the clay matrix, greatly reduced propagation of fissures in the composites and the high tensile strength of fonio straw because of its cellulose content. Thus, fonio-straw-reinforced adobes have interesting properties for use as cheap construction materials in the Sahelian zones and could contribute significantly to the thermal comfort of the inhabitants in this hot climate.

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Improvement of water resistance and thermal comfort of earth renders by cow dung: an ancestral practice of Burkina Faso

Bamogo

Ouédraogo

Sanou

et al. 2020

Journal of Cultural Heritage

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Microstructure, Physical and Mechanical Properties of Adobes Stabilized with Rice Husks

Ouédraogo

Bamogo

Sanou

et al. 2022

International Journal of Architectural Heritage

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Kalifala Dao

Thermal, hydric and mechanical behaviours of adobes stabilized with cement

Physical, thermal and mechanical properties of adobes stabilized with fonio (Digitaria exilis) straw

Improvement of water resistance and thermal comfort of earth renders by cow dung: an ancestral practice of Burkina Faso

Microstructure, Physical and Mechanical Properties of Adobes Stabilized with Rice Husks

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