Download

Full Text

• Millogo, Y., How properties of Kenaf fibers from Burkina Faso contribute to the reinforcement of earth blocks (2015) Materials (Basel), 8, pp. 2332-2345. , pp
• Binici, H., Aksogan, O., Shah, T., Investigation of fibre reinforced mud brick as a building material (2005) Constr. Build. Mater., 19, pp. 313-318. , pp
• Ojo, E.B., Effects of fibre reinforcements on properties of extruded alkali activated earthen building materials (2019) Constr. Build. Mater., 227. , 116778
• Laibi, A., Physicochemical and mechanical characterization of Benin’s Kenaf fibers and its effect on the building compressed earth blocks (CEB) mechanical properties. Res (2017) J. Chem. Sci., 7, pp. 6-15. , pp
• Taallah, B., Guettala, A., The mechanical and physical properties of compressed earth block stabilized with lime and filled with untreated and alkali-treated date palm fibers (2016) Constr. Build. Mater., 104, pp. 52-62. , pp
• Taallah, B., Mechanical properties and hygroscopicity behavior of compressed earth block filled by date palm fibers (2014) Constr. Build. Mater., 59, pp. 161-168. , pp
• Mostafa, M., Uddin, N., Experimental analysis of compressed earth block (CEB) with banana fibers resisting flexural and compression forces. Case Stud (2016) Constr. Mater., 5, pp. 53-63. , pp
• Donkor, P., Obonyo, E., Earthen construction materials: Assessing the feasibility of improving strength and deformability of compressed earth blocks using polypropylene fibers (2015) Mater. Des., 83, pp. 813-819. , pp
• Danso, H., Physical, mechanical and durability properties of soil building blocks reinforced with natural fibres (2015) Constr. Build. Mater., 101, pp. 797-809. , pp
• Laborel-Préneron, A., Plant aggregates and fibers in earth construction materials: A review (2016) Constr. Build. Mater., 111, pp. 719-734. , pp
• Ashour, T., Thermal conductivity of unfired earth bricks reinforced by agricultural wastes with cement and gypsum (2015) Energy Build, 104, pp. 139-146. , pp
• van Damme, H., Houben, H., Earth concrete. Stabilization revisited (2018) Cem. Concr. Res., 114, pp. 90-102. , pp
• Moussa, S.H., Comparative study of thermal comfort induced from masonry made of stabilized compressed earth block vs conventional cementitious material (2019) J. Miner. Mater. Charact. Eng., 7, pp. 385-403. , pp
• Hema, C.M., Vernacular housing practices in Burkina Faso: Representative models of construction in Ouagadougou and walls hygrothermal efficiency. Energy Procedia (2017) Elsevier: Lausanne, pp. 535-540. , pp
• Boro, D., Florent Kieno, P., Ouedraogo, E., Experimental study of the thermal and mechanical properties of compressed earth blocks stabilized with sawdust according to the rates for the thermal insulation of a building (2017) Int. J. Constr. Eng. Manag., 6, pp. 103-109. , pp
• Araya-Letelier, G., Influence of natural fiber dosage and length on adobe mixes damage-mechanical behavior (2018) Constr. Build. Mater., 174, pp. 645-655. , pp
• Millogo, Y., Experimental analysis of pressed adobe blocks reinforced with hibiscus cannabinus fibers (2014) Constr. Build. Mater., 52, pp. 71-78. , pp
• Prasad, C.K.S., Nambiar, E.K.K., Abraham, B.M., Plastic fibre reinforced soil blocks as a sustainable building material (2012) Int. J. Adv. Res. Technol., 1, pp. 1-4. , pp
• Villamizar, M.C.N., Effect of the addition of coal-ash and cassava peels on the engineering properties of compressed earth blocks (2012) Constr. Build. Mater., 36, pp. 276-286. , pp
• Elenga, R.G., Characterization of clayey soils from Congo and physical properties of their compressed earth blocks reinforced with post-consumer plastic wastes (2011) Geomaterials, 1, pp. 88-94. , pp
• Laibi, A.B., Influence of the kenaf fiber length on the mechanical and thermal properties of compressed earth blocks (CEB) (2018) KSCE J. Civ. Eng., 22, pp. 785-793. , pp
• Danso, H., Effect of fibre aspect ratio on mechanical properties of soil building blocks (2015) Constr. Build. Mater., 83, pp. 314-319. , pp
• Mostafa, M., Uddin, N., Effect of banana fibers on the compressive and flexural strength of compressed earth blocks (2015) Buildings, 5, pp. 282-296. , pp
• Galan-Marin, C., Rivera-Gomez, C., Petric, J., Clay-based composite stabilized with natural polymer and fibre (2010) Constr. Build. Mater., 24, pp. 1462-1468. , pp
• Nshimiyimana, P., Calcium carbide residue and rice husk ash for improving the compressive strength of compressed earth blocks (2018) MRS Adv, 3, pp. 2009-2014. , pp
• Nshimiyimana, P., Effect of production and curing conditions on the performance of stabilized compressed earth blocks: Kaolinite vs quartz-rich earthen material (2020) MRS Adv, 5, pp. 1277-1283. , pp
• de Rosa, I.M., Morphological, thermal and mechanical characterization of okra (Abelmoschus esculentus) fibres as potential reinforcement in polymer composites (2010) Compos. Sci. Technol., 70, pp. 116-122. , pp
• Alam, M.S., Khan, G.M., Chemical analysis of okra bast fiber (Abelmoschus Esculentus) and its physico-chemical properties (2007) J. Text. Apparel. Technol. Manag., 5, pp. 1-9. , pp
• Khan, G.M.A., Yilmaz, N.D., Yilmaz, K., Effects of chemical treatments and degumming methods on physical and mechanical properties of okra bast and corn husk fibers (2019) J. Text. Inst., pp. 1-18. , pp
• Khan, G.M.A., Yilmaz, N.D., Yilmaz, K., Okra fibers: Potential material for green biocomposites. Green Biocomposites: Design and Applications, eds M. Jawaid (2018) M.S. Salit & O.Y. Alothman, Springer International Publishing, pp. 261-284. , pp
• Khan, G.M.M., Grafting of acrylonitrile monomer onto bleached okra bast fibre and its textile properties (2009) Indian J. Fibre Text. Res., 34, pp. 321-327. , pp
• Duman, M.N., Nonwoven production from agricultural okra wastes and investigation of their thermal conductivities (2017) IOP Conf. Ser. Mater. Sci. Eng., 254, pp. 1-7. , pp
• Grellier, C., (2017) Pure Water Plastic Bags Inspire Recycling in Africa. Makery, , www.makery.info/en/2017/04/25/les-sacs-plastique-pure-water-inspirent-lerecyclage-en-afrique/
• Nshimiyimana, P., Physico-chemical and mineralogical characterization of clay materials suitable for production of stabilized compressed earth blocks (2020) Constr. Build. Mater., 241, pp. 1-13. , pp
• Testing Procedures Guide (2000) Technology Series, 16. , CDE (ARSO): Brussels, Belgium
• Nshimiyimana, P., Chemico-microstructural changes in earthen building materials containing calcium carbide residue and rice husk ash (2019) Constr. Build. Mater., 216, pp. 622-631. , pp
• Afnor, N.F.P., 18-459: Essai pour béton durci – Essai de porosité et de masse volumique (2010) Saint-Denis La Plaine Cedex
• Afnor, X.P., P13-901: Blocs de terre comprimée pour murs et cloisons, DéfinitionsSpécifications-Méthodes d’essais-Conditions de réception (2001) Saint-Denis La Plaine Cedex
• Guettala, S., Bachar, M., Azzouz, L., Properties of the compressed-stabilized earth brick containing cork granules (2016) J. Earth Sci. Clim. Chang., 7
• Guettala, A., Abibsi, A., Houari, H., Durability study of stabilized earth concrete under both laboratory and climatic conditions exposure (2006) Constr. Build. Mater., 20, pp. 119-127. , pp
• Berrehail, T., Zemmouri, N., Agoudjil, B., Thermal conductivity of cement stabilized earth bricks reinforced with date palm fiber (1968) AIP Conf. Proc.
• Sore, S.O., Stabilization of compressed earth blocks (CEBs) by geopolymer binder based on local materials from Burkina Faso (2018) Constr. Build. Mater., 165, pp. 333-345. , pp
• Mansour, M.B., Optimizing thermal and mechanical performance of compressed earth blocks (CEB) (2016) Constr. Build. Mater., 104, pp. 44-51. , pp
• (1998), Guide Technologies Series No. 11, Brussels