Effect of Alternating Hybridisation of Fibres on the Physico - Mechanical Behaviour of Composite Materials
The performance/weight ratio of fiber reinforced polymer matrix composites makes them the material of choice for structural applications in many fields such as aerospace, aeronautics, automotive and civil engineering...etc. In polymer matrix composites, the fibers used as reinforcement are mainly sy...
Main Authors: | , , , |
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Format: | Article |
Language: | English |
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Sciendo
2023-06-01
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Series: | Civil and Environmental Engineering |
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Online Access: | https://doi.org/10.2478/cee-2023-0036 |
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author | Harb Noura Dilmi Hamid Bezzazi Boudjema Hamitouche Kahina |
author_facet | Harb Noura Dilmi Hamid Bezzazi Boudjema Hamitouche Kahina |
author_sort | Harb Noura |
collection | DOAJ |
description | The performance/weight ratio of fiber reinforced polymer matrix composites makes them the material of choice for structural applications in many fields such as aerospace, aeronautics, automotive and civil engineering...etc. In polymer matrix composites, the fibers used as reinforcement are mainly synthetic fibers such as carbon and/or glass fibers. To ensure the low cost of using fiber-reinforced materials in motor vehicles, it is proposed to selectively incorporate carbon fibers to enhance glass fiber composites along the roadway, and to enhance glass fiber composites along the main load path. For this purpose, we conducted a behavioral study of hybrid epoxy thermoset polymer matrix laminates to highlight the influence of alternate hybridization of glass and carbon fibers on the physical-mechanical behavior of the materials.The results obtained show that the alternated hybridation of the fibers has a significant influence on the tensile properties; and it affected the density, hardness and flexural properties significantly. |
first_indexed | 2024-03-11T18:16:17Z |
format | Article |
id | doaj.art-7ca2c75bcf0849ddb94512f96e4585d1 |
institution | Directory Open Access Journal |
issn | 2199-6512 |
language | English |
last_indexed | 2024-03-11T18:16:17Z |
publishDate | 2023-06-01 |
publisher | Sciendo |
record_format | Article |
series | Civil and Environmental Engineering |
spelling | doaj.art-7ca2c75bcf0849ddb94512f96e4585d12023-10-16T06:07:32ZengSciendoCivil and Environmental Engineering2199-65122023-06-0119140641310.2478/cee-2023-0036Effect of Alternating Hybridisation of Fibres on the Physico - Mechanical Behaviour of Composite MaterialsHarb Noura0Dilmi Hamid1Bezzazi Boudjema2Hamitouche Kahina31Research Unit-Materials, Processes and Environment, M'Hammed Bougara University, FSI, Cité Frantz Fanon, 35000, Boumerdès, Algeria.1Research Unit-Materials, Processes and Environment, M'Hammed Bougara University, FSI, Cité Frantz Fanon, 35000, Boumerdès, Algeria.1Research Unit-Materials, Processes and Environment, M'Hammed Bougara University, FSI, Cité Frantz Fanon, 35000, Boumerdès, Algeria.1Research Unit-Materials, Processes and Environment, M'Hammed Bougara University, FSI, Cité Frantz Fanon, 35000, Boumerdès, Algeria.The performance/weight ratio of fiber reinforced polymer matrix composites makes them the material of choice for structural applications in many fields such as aerospace, aeronautics, automotive and civil engineering...etc. In polymer matrix composites, the fibers used as reinforcement are mainly synthetic fibers such as carbon and/or glass fibers. To ensure the low cost of using fiber-reinforced materials in motor vehicles, it is proposed to selectively incorporate carbon fibers to enhance glass fiber composites along the roadway, and to enhance glass fiber composites along the main load path. For this purpose, we conducted a behavioral study of hybrid epoxy thermoset polymer matrix laminates to highlight the influence of alternate hybridization of glass and carbon fibers on the physical-mechanical behavior of the materials.The results obtained show that the alternated hybridation of the fibers has a significant influence on the tensile properties; and it affected the density, hardness and flexural properties significantly.https://doi.org/10.2478/cee-2023-0036hybridizationlaminatehardnessflexuretraction |
spellingShingle | Harb Noura Dilmi Hamid Bezzazi Boudjema Hamitouche Kahina Effect of Alternating Hybridisation of Fibres on the Physico - Mechanical Behaviour of Composite Materials Civil and Environmental Engineering hybridization laminate hardness flexure traction |
title | Effect of Alternating Hybridisation of Fibres on the Physico - Mechanical Behaviour of Composite Materials |
title_full | Effect of Alternating Hybridisation of Fibres on the Physico - Mechanical Behaviour of Composite Materials |
title_fullStr | Effect of Alternating Hybridisation of Fibres on the Physico - Mechanical Behaviour of Composite Materials |
title_full_unstemmed | Effect of Alternating Hybridisation of Fibres on the Physico - Mechanical Behaviour of Composite Materials |
title_short | Effect of Alternating Hybridisation of Fibres on the Physico - Mechanical Behaviour of Composite Materials |
title_sort | effect of alternating hybridisation of fibres on the physico mechanical behaviour of composite materials |
topic | hybridization laminate hardness flexure traction |
url | https://doi.org/10.2478/cee-2023-0036 |
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