Characterization of the Mechanical Behavior of Hemp-Clay Composites

Haboubi, Chaimae; Barhdadi, El Hassane; Haboubi, Khadija; Hammoudani, Yahya El; Sadoune, Zouhair; El Abdouni, Aouatif; Dimane, Fouad

doi:10.12913/22998624/183949

Artykuł - szczegóły

Tytuł artykułu

Characterization of the Mechanical Behavior of Hemp-Clay Composites

Autorzy

Haboubi Chaimae , Barhdadi El Hassane , Haboubi Khadija , Hammoudani Yahya El , Sadoune Zouhair , El Abdouni Aouatif , Dimane Fouad

Treść / Zawartość

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DOI

10.12913/22998624/183949

Warianty tytułu

Języki publikacji

Abstrakty

In the present study, micromechanical modeling techniques were employed to examine the mechanical properties of a hemp/clay composite material. This composite consists of hemp fibers incorporated into a clay matrix, a configuration chosen in response to environmental considerations and the natural advantages of hemp fibers, which include their lightweight nature and their considerable strength and stiffness relative to their weight. The approach adopted incorporates both localization and homogenization methodologies along with the three-phase model to provide an in-depth analysis of the composite's behavior. The findings from this theoretical model show a promising correlation with empirical data, demonstrating the model's efficacy in capturing the composite's mechanical response.

Słowa kluczowe

hemp clay composite micromechanical modeling three-phase model of a power line

Wydawca

Lublin University of Technology
Polish Society of Ecological Engineering (PTIE), Branch of PTIE in Lublin

Czasopismo

Advances in Science and Technology. Research Journal

Rocznik

2024

Tom

Vol. 18, no 2

Strony

71--77

Opis fizyczny

Bibliogr. 22 poz., fig.

Twórcy

autor

Haboubi Chaimae

National School of Applied Sciences of Al-Hoceima, Department of Energy and Environmental Civil Engineering, Engineering Sciences and Applications Laboratory, Abdelmalek Essaâdi University, Tetouan, Morocco

autor

Barhdadi El Hassane

National School of Applied Sciences of Al-Hoceima, Department of Energy and Environmental Civil Engineering, Engineering Sciences and Applications Laboratory, Abdelmalek Essaâdi University, Tetouan, Morocco

autor

Haboubi Khadija

National School of Applied Sciences of Al-Hoceima, Department of Energy and Environmental Civil Engineering, Engineering Sciences and Applications Laboratory, Abdelmalek Essaâdi University, Tetouan, Morocco

autor

Hammoudani Yahya El

elhammoudani5@gmail.com

National School of Applied Sciences of Al-Hoceima, Department of Energy and Environmental Civil Engineering, Engineering Sciences and Applications Laboratory, Abdelmalek Essaâdi University, Tetouan, Morocco

https://orcid.org/0000-0002-8751-1801

autor

Sadoune Zouhair

Department of Physics, Faculty of Science, Ibn Tofail University Kenitra, Morocco

autor

El Abdouni Aouatif

National School of Applied Sciences of Al-Hoceima, Department of Energy and Environmental Civil Engineering, Engineering Sciences and Applications Laboratory, Abdelmalek Essaâdi University, Tetouan, Morocco

autor

Dimane Fouad

National School of Applied Sciences of Al-Hoceima, Department of Energy and Environmental Civil Engineering, Engineering Sciences and Applications Laboratory, Abdelmalek Essaâdi University, Tetouan, Morocco

Bibliografia

1. Collet F., Pretot S. Experimental investigation of moisture buffering capacity of sprayed hemp concrete. Construction and Building Materials 2012; 36(3): 58–65.
2. Ait Mansour A., El-Haitout B., Adnin R.J., Lgaz H., Salghi R., Lee H.-S., Alhadeethi M.R., Messali M., Haboubi K., Ali I.H. Insights into the Corrosion Inhibition Performance of Isonicotinohydrazide Derivatives for N80 Steel in 15% HCl Medium: An Experimental and Molecular Level Characterization. Metals 2023; 13(4): 797.
3. Elabdouni A., Haboubi K., Bensitel N., Bouhout S., Aberkani K., El Youbi M.S. Removal of organic matter and polyphenols in the olive oil mill wastewater by coagulation-flocculation using aluminum sulfate and lime. Moroccan Journal of Chemistry 2022; 10(1): 191–202.
4. Gioffré M., Vincenzini A., Cavalagli N., Gusella V., Caponero M., Terenzi A., Pepi C. A novel hemp-fiber bio-composite material for strengthening of arched structures: Experimental investigation. Construction and Building Materials 2021; 308(124969).
5. Fernine Y., Arrousse N., Haldhar R., Raorane C.J., Kim S.-C., El Hajjaji F., Touhami M.E., Beniken M., Haboubi K., Taleb M. Synthesis and characterization of phenolphthalein derivatives, detailed theoretical DFT computation/molecular simulation, and prevention of AA2024-T3 corrosion in medium 3.5% NaCl. Journal of the Taiwan Institute of Chemical Engineers 2022; 140(104556).
6. Pretot S., Collet F., Garnier C., Life cycle assessment of a hemp concrete wall: Impact of thickness and coating. Building and Environment 2014; 72: 223–231.
7. Amziane S., Arnaud L. Bio-aggregate-based Building Materials 2013.
8. Andaloussi K., Achtak H., Nakhcha C., Haboubi K., Stitou M. Assessment of soil trace metal contamination of an uncontrolled landfill and its vicinity: the case of the city of ‘Targuist’(Northern Morocco). Moroccan Journal of Chemistry 2021; 9(3): 9–3, 513–529.
9. Voigt W. Ueber die Beziehung zwischen den beiden Elasticitätsconstanten isotroper Körper. Annalen der Physik 1889; 274(12): 573–587.
10. Bouhout S., Haboubi K., El Abdouni A., El Hammoudani Y., Haboubi C., Dimane F., Hanafi I., Elyoubi M.S. Appraisal of Groundwater Quality Status in the Ghiss-Nekor Coastal Plain. Journal of Ecological Engineering 2023; 24(10).
11. Bumanis G., Vitola L., Pundiene I., Sinka M., Bajare D. Gypsum, geopolymers, and starch-alternative binders for bio-based building materials: A review and life-cycle assessment. Sustainability (Switzerland) 2020; 12(14).
12. Bourjila A., Dimane F., Ghalit M., Taher M., Kamari S., El Hammoudani Y., Achoukhi I., Haboubi K. Mapping the spatiotemporal evolution of seawater intrusion in the Moroccan coastal aquifer of Ghiss-Nekor using GIS-based modeling. Water Cycle 2023; 4: 104–119.
13. Hashin Z. The elastic moduli of heterogeneous materials. 1960: US Department of Commerce, Office of Technical Services.
14. Hashin Z., Shtrikman S. A variational approach to the theory of the elastic behaviour of multiphase materials. Journal of the Mechanics and Physics of Solids 1963; 11(2): 127–140.
15. Eshelby J.D. The determination of the elastic field of an ellipsoidal inclusion, and related problems. Proceedings of the royal society of London. Series A. Mathematical and Physical Sciences 1957; 241(1226): 376–396.
16. Mori T., Tanaka K. Average stress in matrix and average elastic energy of materials with misfitting inclusions. Acta metallurgica 1973; 21(5): 571–574.
17. Christensen R.M. A critical evaluation for a class of micro-mechanics models. Journal of the Mechanics and Physics of Solids 1990; 38(3): 379–404.
18. Christensen R., Lo K. Solutions for effective shear properties in three phase sphere and cylinder models. Journal of the Mechanics and Physics of Solids 1979; 27(4): 315–330.
19. Mura T. Micromechanics of defects in solids. 2013: Springer Science & Business Media.
20. Attard T.M., Goodwin C., Nalivaika P., Attard J., Budarin V.L., Lanot A., Bove D., Clark J.H., McElroy C.R. Simple, quick and green isolation of cannabinoids from complex natural product extracts using sustainable mesoporous materials (Starbon®). Materials Chemistry Frontiers 2022.
21. Böhm H.J. A short introduction to basic aspects of continuum micromechanics. Cdl-fmd report 1998; 3.
22. Frankowski J., Zaborowicz M., Sieracka D., Łochyńska M., Czeszak W, Prediction of the hemp yield using artificial intelligence methods. Journal of Natural Fibers 2022; 19(16): 13725–13735.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-d6efb170-8ff3-412e-a692-8b60c8110966