Statistical analysis of the performance of young's modulus of natural fiber composites and synthetic fiber composites
Fiber-reinforced composites are widely used in a wide range of applications due to their lightweight, low cost, environmentally friendly, and reliable properties. Natural fiber and synthetic fiber are the two main types of fiber. These two fiber groups have distinct features that require a methodica...
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Penerbit UTM Press
2022
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my.utem.eprints.262932023-03-03T16:02:57Z http://eprints.utem.edu.my/id/eprint/26293/ Statistical analysis of the performance of young's modulus of natural fiber composites and synthetic fiber composites Muhammad, Noryani Mohammad Taha, Mastura Mustafa, Nuzaimah Zakaria, Nazri Huzaimi Che Hamid, Hazliza Aida Shaharuzaman, Mohd Adrinata Loh Y.F Fiber-reinforced composites are widely used in a wide range of applications due to their lightweight, low cost, environmentally friendly, and reliable properties. Natural fiber and synthetic fiber are the two main types of fiber. These two fiber groups have distinct features that require a methodical approach for material selection. The distinct properties of both fibers resulted in a wide range of strength that was computed in accordance with the desired performance of material engineers. Synthetic fibers are known to be stronger than natural fibers, however due to sustainability concerns, natural fibers are commonly used with some fiber modifications and hybridization to enhance the strength of natural fiber composites. Statistical analysis is employed in this study to determine Young's modulus of each fiber group. Hypothesis testing was used to confirm the performance of the fiber's Young's modulus. All synthetic fibers have a substantially greater Young's modulus than natural fiber based on the P-value score. Aramid had the highest score for synthetic fibers, while flax fiber had the highest score for natural fiber groups, with 424.8 GPa and 57.3 GPa, respectively. Ultimately, hybridization has the potential to overcome the limitations of both synthetic and natural fibers. This statistical approach may be used to validate the hypothesis about the properties of both fibers. Penerbit UTM Press 2022-10 Article PeerReviewed text en http://eprints.utem.edu.my/id/eprint/26293/3/19366-Article%20Text-65724-1-10-20221031.pdf Muhammad, Noryani and Mohammad Taha, Mastura and Mustafa, Nuzaimah and Zakaria, Nazri Huzaimi and Che Hamid, Hazliza Aida and Shaharuzaman, Mohd Adrinata and Loh Y.F (2022) Statistical analysis of the performance of young's modulus of natural fiber composites and synthetic fiber composites. Jurnal Teknologi, 84 (6-2). pp. 151-162. ISSN 180–3722 https://journals.utm.my/jurnalteknologi/article/view/19366/8054 10.11113/jurnalteknologi.v84.19366 |
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Fiber-reinforced composites are widely used in a wide range of applications due to their lightweight, low cost, environmentally friendly, and reliable properties. Natural fiber and synthetic fiber are the two main types of fiber. These two fiber groups have distinct features that require a methodical approach for material selection. The distinct properties of both fibers resulted in a wide range of strength that was computed in accordance with the desired performance of material engineers. Synthetic fibers are known to be stronger than natural fibers, however due to sustainability concerns, natural fibers are commonly used with some fiber modifications and hybridization to enhance the strength of natural fiber composites. Statistical analysis is employed in this study to determine Young's modulus of each fiber group. Hypothesis testing was used to confirm the performance of the fiber's Young's modulus. All synthetic fibers have a substantially greater Young's modulus than natural fiber based on the P-value score. Aramid had the highest score for synthetic fibers, while flax fiber had the highest score for natural fiber groups, with 424.8 GPa and 57.3 GPa, respectively. Ultimately, hybridization has the potential to overcome the limitations of both synthetic and natural fibers. This statistical approach may be used to validate the hypothesis about the properties of both fibers. |
| format |
Article |
| author |
Muhammad, Noryani Mohammad Taha, Mastura Mustafa, Nuzaimah Zakaria, Nazri Huzaimi Che Hamid, Hazliza Aida Shaharuzaman, Mohd Adrinata Loh Y.F |
| spellingShingle |
Muhammad, Noryani Mohammad Taha, Mastura Mustafa, Nuzaimah Zakaria, Nazri Huzaimi Che Hamid, Hazliza Aida Shaharuzaman, Mohd Adrinata Loh Y.F Statistical analysis of the performance of young's modulus of natural fiber composites and synthetic fiber composites |
| author_facet |
Muhammad, Noryani Mohammad Taha, Mastura Mustafa, Nuzaimah Zakaria, Nazri Huzaimi Che Hamid, Hazliza Aida Shaharuzaman, Mohd Adrinata Loh Y.F |
| author_sort |
Muhammad, Noryani |
| title |
Statistical analysis of the performance of young's modulus of natural fiber composites and synthetic fiber composites |
| title_short |
Statistical analysis of the performance of young's modulus of natural fiber composites and synthetic fiber composites |
| title_full |
Statistical analysis of the performance of young's modulus of natural fiber composites and synthetic fiber composites |
| title_fullStr |
Statistical analysis of the performance of young's modulus of natural fiber composites and synthetic fiber composites |
| title_full_unstemmed |
Statistical analysis of the performance of young's modulus of natural fiber composites and synthetic fiber composites |
| title_sort |
statistical analysis of the performance of young's modulus of natural fiber composites and synthetic fiber composites |
| publisher |
Penerbit UTM Press |
| publishDate |
2022 |
| url |
http://eprints.utem.edu.my/id/eprint/26293/3/19366-Article%20Text-65724-1-10-20221031.pdf http://eprints.utem.edu.my/id/eprint/26293/ https://journals.utm.my/jurnalteknologi/article/view/19366/8054 |
| _version_ |
1759693063531266048 |
| score |
13.214268 |