IMPROVING THE PERFORMANCE OF HYBRID BIOCOMPOSITE MATERIALS USING EPOXY, VINYL ESTER AND POLYIMIDE POLYMER MATRIX: COMPARATIVE STUDY

The present study aims to assess the impact of alfa and date palm natural fibers as reinforcement for epoxy, vinyl ester, and polyimide polymer (Alfa-Date palm/epoxy, Alfa-Date palm/vinyl ester, and Alfa-date palm/polyimide) through a genetic approach. The study employs a genetic simulation rooted i...

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Bibliographic Details
Published inApplied Engineering Letters Vol. 9; no. 2; pp. 64 - 75
Main Authors Alami, Mohamed, Mokaddem, Allel, Belkheir, Mohammed, Rouissat, Mehdi, Doumi, Bendouma, Ziani, Djamila
Format Journal Article
LanguageEnglish
Published The Serbian Academic Center 01.06.2024
Subjects
alfa
epoxy
natural fibres
palm date
polyimide
vinyl ester
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Summary:The present study aims to assess the impact of alfa and date palm natural fibers as reinforcement for epoxy, vinyl ester, and polyimide polymer (Alfa-Date palm/epoxy, Alfa-Date palm/vinyl ester, and Alfa-date palm/polyimide) through a genetic approach. The study employs a genetic simulation rooted in the Weibull formalism, employing genetic operators such as selection, crossing, and mutation for a nuanced evaluation of the damage at the fiber-matrix interface across the studied materials. The genetic algorithm results authentically capture the intrinsic behaviour of these materials, emphasising key mechanical properties like Young’s Modulus, deformation, and stress at break. The obtained results highlight that the matrix showing the highest Young’s modulus value at its fiber- matrix interface exhibits superior strength. These conclusions align with contemporary advancements in natural fiber-reinforced composite materials tailored for diverse industries and eco-friendly applications.
ISSN:2466-4677
2466-4847
DOI:10.46793/aeletters.2024.9.2.1