New Geometrical Modelling for 2D Fabric and 2.5D Interlock Composites
A new geometrical modeling tool has been developed to predict the elastic stiffness properties of 2D orthogonal and 2.5D woven interlock composites. The model estimates the change in performance due to changes in the ordering weaving parameters of the 2.5D weave architecture. Analysis results were v...
Main Authors: | , , |
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Format: | Article |
Language: | English |
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MDPI AG
2022-03-01
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Series: | Textiles |
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Online Access: | https://www.mdpi.com/2673-7248/2/1/8 |
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author | Mohamad Abbas Kaddaha Rafic Younes Pascal Lafon |
author_facet | Mohamad Abbas Kaddaha Rafic Younes Pascal Lafon |
author_sort | Mohamad Abbas Kaddaha |
collection | DOAJ |
description | A new geometrical modeling tool has been developed to predict the elastic stiffness properties of 2D orthogonal and 2.5D woven interlock composites. The model estimates the change in performance due to changes in the ordering weaving parameters of the 2.5D weave architecture. Analysis results were validated compared to other models developed in published articles and the literature. Numerical analysis was performed to evaluate the accuracy of the results from the proposed models. These results demonstrate the effectiveness of the models presented by comparisons with experimental results, showing that the model could replicate the mechanical behaviors of 2D fabric and 2.5D interlock composite laminates for predicting 2D textile structures and 2.5D interlock composites with different types, shapes, and conditions. The model presented in this paper is able to replicate the behavior of woven composites of fiber reinforced with various types. |
first_indexed | 2024-03-09T12:23:37Z |
format | Article |
id | doaj.art-505eb07870be4ef19bb6816b3b2e842d |
institution | Directory Open Access Journal |
issn | 2673-7248 |
language | English |
last_indexed | 2024-03-09T12:23:37Z |
publishDate | 2022-03-01 |
publisher | MDPI AG |
record_format | Article |
series | Textiles |
spelling | doaj.art-505eb07870be4ef19bb6816b3b2e842d2023-11-30T22:37:42ZengMDPI AGTextiles2673-72482022-03-012114216110.3390/textiles2010008New Geometrical Modelling for 2D Fabric and 2.5D Interlock CompositesMohamad Abbas Kaddaha0Rafic Younes1Pascal Lafon2Faculty of Engineering, Lebanese University, Beirut 1002, LebanonFaculty of Engineering, Lebanese University, Beirut 1002, LebanonLaboratory of Mechanical & Material Engineering, University of Technology of Troyes, 10420 Troyes, FranceA new geometrical modeling tool has been developed to predict the elastic stiffness properties of 2D orthogonal and 2.5D woven interlock composites. The model estimates the change in performance due to changes in the ordering weaving parameters of the 2.5D weave architecture. Analysis results were validated compared to other models developed in published articles and the literature. Numerical analysis was performed to evaluate the accuracy of the results from the proposed models. These results demonstrate the effectiveness of the models presented by comparisons with experimental results, showing that the model could replicate the mechanical behaviors of 2D fabric and 2.5D interlock composite laminates for predicting 2D textile structures and 2.5D interlock composites with different types, shapes, and conditions. The model presented in this paper is able to replicate the behavior of woven composites of fiber reinforced with various types.https://www.mdpi.com/2673-7248/2/1/82D fabric2.5Dinterlock compositecompliance matrixhomogenization |
spellingShingle | Mohamad Abbas Kaddaha Rafic Younes Pascal Lafon New Geometrical Modelling for 2D Fabric and 2.5D Interlock Composites Textiles 2D fabric 2.5D interlock composite compliance matrix homogenization |
title | New Geometrical Modelling for 2D Fabric and 2.5D Interlock Composites |
title_full | New Geometrical Modelling for 2D Fabric and 2.5D Interlock Composites |
title_fullStr | New Geometrical Modelling for 2D Fabric and 2.5D Interlock Composites |
title_full_unstemmed | New Geometrical Modelling for 2D Fabric and 2.5D Interlock Composites |
title_short | New Geometrical Modelling for 2D Fabric and 2.5D Interlock Composites |
title_sort | new geometrical modelling for 2d fabric and 2 5d interlock composites |
topic | 2D fabric 2.5D interlock composite compliance matrix homogenization |
url | https://www.mdpi.com/2673-7248/2/1/8 |
work_keys_str_mv | AT mohamadabbaskaddaha newgeometricalmodellingfor2dfabricand25dinterlockcomposites AT raficyounes newgeometricalmodellingfor2dfabricand25dinterlockcomposites AT pascallafon newgeometricalmodellingfor2dfabricand25dinterlockcomposites |