Investigation of the mechanical and thermal characteristics of an eco-insulating material made of plaster and date palm fibers

[1] M. Rachedi, A.Kriker. Thermal properties of plaster reinforced with date palm fibers. Civil and Environmental Engineering. 2020;16,2: 259-266.10.2478/cee-2020-0025 Search in Google Scholar

[2] F. Hafsi, A.Kriker, S.Abani. Contribution Study to the Thermal Insulation of the Builders in the Desert Regions of Exploiting Gypsum Fiber Reinforced Palm. AIP Conference Proceedings. 2017; 1814,1: 020029.10.1063/1.4976248 Search in Google Scholar

[3] United Nation Environment Programme, Environment for development, available at http://www.unep.org/sbci/AboutSBCI/Background.asp. Search in Google Scholar

[4] A. Braiek, M. Karkri, et All. Estimation of the thermophysical properties of date palmfibers/gypsum composite for use as insulating materials in building. Energy and Buildings. 2017;140: 268–279.10.1016/j.enbuild.2017.02.001 Search in Google Scholar

[5] Kriker A, Debicki G, Bali A, Khenfer MM, Chabannet M. Mechanical properties of date palm fibres and reinforced date palm fibres concrete in hot-dry climate. Cement Concrete Comp. 2005;27: 554–564.10.1016/j.cemconcomp.2004.09.015 Search in Google Scholar

[6] M. M. Khenfer, P.P. Morlier. Cellulose fibres reinforced plaster. Materials and Structures.1999; 32:52-58.10.1007/BF02480412 Search in Google Scholar

[7] Iucolano F, Caputo D, Leboffe F, Liguori B. Mechanical behavior of plaster reinforced with abaca fibers. Constr Build Mater. 2015; 99:184–91.10.1016/j.conbuildmat.2015.09.020 Search in Google Scholar

[8] A. KHABBAZI, J. Kettar. Thermal Thermal and Mechanical Behavior of the Plaster Reinforced by Fiber Alpha or Granular Cork. International Journal of Civil Engineering and Technology. 2017; 8,7: 1026–1040. Search in Google Scholar

[9] J.S.Alcaraz, I.M. Belda, et Al. Mechanical properties of plaster reinforced with yute fabrics. Composites Part B. 2019;178: 107390.10.1016/j.compositesb.2019.107390 Search in Google Scholar

[10] W. GALLALA, H.M.M. KHATER, et Al. production of low-cost biocomposite made of palm fibers waste and gypsum plaster. Int. Contam. Ambie. 2020; 36,2: 475-483.10.20937/RICA.53541 Search in Google Scholar

[11] I.Boulaoued,I.Amara,A.Mhimid. Experimental Determination of Thermal Conductivity and Diffusivity of New Building Insulating Materials. journal of heat and technology.2016; 34,2: 325-331.10.18280/ijht.340224 Search in Google Scholar

[12] A.M. ALmusawi, T.S. Hussein, M.A. Shallal. Effect of Temperature and Sisal Fiber Content on the Properties of Plaster of Paris. International Journal of Engineering & Technology. 2018;7: 205-208.10.14419/ijet.v7i4.20.25927 Search in Google Scholar

[13] F.Naiiri, L.Allegue, M.Salem, R.Zitoune, M.Zidi. The effect of doum palm fibers on the mechanical and thermal properties of gypsum mortar. Journal of Composite Materials. 2019:1–19. Search in Google Scholar

[14] A.Djoudi, M.M.Khenfer, A.Bali, T.Bouziani. Effect of the addition of date palm fibers on thermal properties of plaster concrete: experimental studyand modeling. Adhesion Science and Technology.2014; 28,20: 2100-2111.10.1080/01694243.2014.948363 Search in Google Scholar

[15] M. Rachedi, A.Kriker. Optimal composition of plaster mortar reinforced with palm fibers. J Civil Eng Environ Sci. 2018; 4: 44–49.10.17352/2455-488X.000027 Search in Google Scholar

[16] A.Achour, F.Ghomari, N.Belayachi. Properties of cementitious mortars reinforced with natural fibers. J of Adhesion Science and Technology. 2017; 10: 1–25.10.1080/01694243.2017.1290572 Search in Google Scholar

[17] H. Laoubi, M. Bederina, et Al. Study of a New Plaster Composite Based on Dune Sand and Expanded Polystyrene as Aggregates. The Open Civil Engineering Journal. 2018; 12: 401-412.10.2174/1874149501812010401 Search in Google Scholar

[18] M.B. Ochang, P.R. Jubu, et Al. Investigation of Thermal Properties of Fabricated Plaster of Paris -Rice Husk Ash Composite with Varying Matrix-Filler Volume Fractions for Thermal Insulation Applications. American Journal of Engineering Research.2018; 7,6: 215-222. Search in Google Scholar

[19] S. Benaniba, Z. Driss, et All. Thermo-mechanical characterization of a bio-composite mortar reinforced with date palm fiber. Journal of Engineered Fibers and Fabrics. 2020; 15:1–9.10.1177/1558925020948234 Search in Google Scholar

[20] A. Kenai, M. Rezagui, et All. Performance of Repair Mortar with Natural Fibers. MRS Advances.2020; 5,17: 1295–1304.10.1557/adv.2020.178 Search in Google Scholar

[21] M. Boumhaout, L. Boukhattem, et Al. Thermomechanical characterization of a bio-composite building material: Mortar reinforced with date palm fibers mesh. Construction and Building Materials. 2017; 135: 241–250.10.1016/j.conbuildmat.2016.12.217 Search in Google Scholar