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Article Open Access December 23, 2023

Formulation, Characterization and Future Potential of Composite Materials from Natural Resources: the case of Kenaf and Date Palm Fibers

Aslain Brisco NGNASSI DJAMI 1,*, Ulrich NGNASSI NGUELCHEU 2 and Serge DOKA YAMIGNO 2
1
Department of Fundamental Sciences and Techniques of Engineer, Chemical Engineering and Mineral Industries School, University of Ngaoundere, Ngaoundere, Cameroon
2
Department of Physics, Faculty of Science, University of Ngaoundere, Ngaoundere, Cameroon
Publihed in: Current Research in Public Health (Volume 1, Issue 1, 2023)
Page(s): 53-78
DOI: 10.31586/ojme.2023.861
Received
August 12, 2023
Revised
October 31, 2023
Accepted
December 15, 2023
Published
December 23, 2023
Keywords
Vegetable fibres; Kenaf fibre; Date palm fibre; Bio-composites; Mortar; Chemical treatment; Compression; 3-point bending
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.
Copyright: Copyright © The Author(s), 2023. Published by Scientific Publications
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Cite This Article

APA Style
DJAMI, A. B. N. , NGUELCHEU, U. N. , & YAMIGNO, S. D. (2023). Formulation, Characterization and Future Potential of Composite Materials from Natural Resources: the case of Kenaf and Date Palm Fibers. Current Research in Public Health, 1(1), 53-78. https://doi.org/10.31586/ojme.2023.861
ACS Style
DJAMI, A. B. N. ; NGUELCHEU, U. N. ; YAMIGNO, S. D. Formulation, Characterization and Future Potential of Composite Materials from Natural Resources: the case of Kenaf and Date Palm Fibers. Current Research in Public Health 2023 1(1), 53-78. https://doi.org/10.31586/ojme.2023.861
Chicago/Turabian Style
DJAMI, Aslain Brisco NGNASSI, Ulrich NGNASSI NGUELCHEU, and Serge DOKA YAMIGNO. 2023. "Formulation, Characterization and Future Potential of Composite Materials from Natural Resources: the case of Kenaf and Date Palm Fibers". Current Research in Public Health 1, no. 1: 53-78. https://doi.org/10.31586/ojme.2023.861
AMA Style
DJAMI ABN, NGUELCHEU UN, YAMIGNO SD. Formulation, Characterization and Future Potential of Composite Materials from Natural Resources: the case of Kenaf and Date Palm Fibers. Current Research in Public Health. 2023; 1(1):53-78. https://doi.org/10.31586/ojme.2023.861 
@Article{crph861,
AUTHOR = {DJAMI, Aslain Brisco NGNASSI and NGUELCHEU, Ulrich NGNASSI and YAMIGNO, Serge DOKA},
TITLE = {Formulation, Characterization and Future Potential of Composite Materials from Natural Resources: the case of Kenaf and Date Palm Fibers},
JOURNAL = {Current Research in Public Health},
VOLUME = {1},
YEAR = {2023},
NUMBER = {1},
PAGES = {53-78},
URL = {https://www.scipublications.com/journal/index.php/OJME/article/view/861},
ISSN = {2831-5162},
DOI = {10.31586/ojme.2023.861},
ABSTRACT = {Thanks to their interesting mechanical properties, recyclability and low production costs, plant fiber-reinforced composites, derived from agricultural residues, are of particular interest to both manufacturers and scientists looking to incorporate new environmentally-friendly and biodegradable materials to replace synthetic fibers, particularly glass fibers. The growing use of these composites in fields such as the automotive, construction and building industries, and soon in aeronautics, raises concerns about the reliability of the structures with which they are manufactured. This reliability must be guaranteed at the design stage, by a good knowledge of the properties of the material used. In this case, for composites, it is necessary to know the mechanical properties of their constituents, fibers and matrix, etc. In this context, this paper focuses firstly on the economic and industrial recovery of Kenaf (K) and Date Palm (DP) fibers, and secondly on their incorporation as a reinforcing element in cementitious matrix composites, for subsequent use in non-structural applications. This research highlights the development of cementitious matrix bio-composites reinforced with this type of fiber, based on Taguchi's statistical methodology, in order to minimize the cost and number of tests. The bio-composites developed are then mechanically characterized under static loading in compression and 3-point bending after a 30-day drying period.},
}
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%A DJAMI, Aslain Brisco NGNASSI
%A NGUELCHEU, Ulrich NGNASSI
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%D 2023
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AB  - Thanks to their interesting mechanical properties, recyclability and low production costs, plant fiber-reinforced composites, derived from agricultural residues, are of particular interest to both manufacturers and scientists looking to incorporate new environmentally-friendly and biodegradable materials to replace synthetic fibers, particularly glass fibers. The growing use of these composites in fields such as the automotive, construction and building industries, and soon in aeronautics, raises concerns about the reliability of the structures with which they are manufactured. This reliability must be guaranteed at the design stage, by a good knowledge of the properties of the material used. In this case, for composites, it is necessary to know the mechanical properties of their constituents, fibers and matrix, etc. In this context, this paper focuses firstly on the economic and industrial recovery of Kenaf (K) and Date Palm (DP) fibers, and secondly on their incorporation as a reinforcing element in cementitious matrix composites, for subsequent use in non-structural applications. This research highlights the development of cementitious matrix bio-composites reinforced with this type of fiber, based on Taguchi's statistical methodology, in order to minimize the cost and number of tests. The bio-composites developed are then mechanically characterized under static loading in compression and 3-point bending after a 30-day drying period.
DO  - Formulation, Characterization and Future Potential of Composite Materials from Natural Resources: the case of Kenaf and Date Palm Fibers
TI  - 10.31586/ojme.2023.861
ER  -