Hyperelastic and elastic-plastic approaches for modelling uniaxial tensile performance of woven fabrics / Yahya, M.F. and Chen, X.

Hyperelastic and elastic-plastic approaches for modelling uniaxial tensile performance of woven fabrics / Yahya, M.F. and Chen, X.

This article presents thefindings ofexperimental andfinite element simulation warp direction uniaxial tensile testing ofplain 1/1, 2/2 twill and 8 ends satin woven fabrics with respect to a wovenfabric model developed in IGES using UniverFilter. Woven fabrics have been specifically configured as a...

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Bibliographic Details
Main Authors: Yahya, Mohamad Faizul, Chen, Xi
Format: Article
Language:English
Published: Research Management Institute (RMI) 2010
Subjects:
Finite element method
Stress waves. Deformation of materials under stress
Weaving
Textile fabrics
Online Access:http://ir.uitm.edu.my/id/eprint/12937/
http://ir.uitm.edu.my/id/eprint/12937/1/AJ_MOHAMAD%20FAIZUL%20YAHYA%20SRJ%2010%201.pdf
id uitm-12937
recordtype eprints
spelling uitm-129372016-05-30T02:00:10Z http://ir.uitm.edu.my/id/eprint/12937/ Hyperelastic and elastic-plastic approaches for modelling uniaxial tensile performance of woven fabrics / Yahya, M.F. and Chen, X. Yahya, Mohamad Faizul Chen, Xi Finite element method Stress waves. Deformation of materials under stress Weaving Textile fabrics This article presents thefindings ofexperimental andfinite element simulation warp direction uniaxial tensile testing ofplain 1/1, 2/2 twill and 8 ends satin woven fabrics with respect to a wovenfabric model developed in IGES using UniverFilter. Woven fabrics have been specifically configured as a balanced weave thereby allowing systematic investigation of the effect of uniaxial tensile stress on the weave. Static automatic incrementation of large representative volume elements has enabled characterisation ofthe response oftwo-dimensional woven fabrics under uniaxial tensile stress with respect to hyperelastic and elastic-plastic material properties. Plain 1/1 and 8 ends satin woven fabrics were well-described by the hyperelastic model and the elastic-plastic model predicted extended strain percentages. The modelling indicates that satin woven fabric possesses the lowest strain distribution and compression stress in the unloaded weft direction compared to plain and twill woven fabrics. Research Management Institute (RMI) 2010 Article PeerReviewed text en http://ir.uitm.edu.my/id/eprint/12937/1/AJ_MOHAMAD%20FAIZUL%20YAHYA%20SRJ%2010%201.pdf Yahya, Mohamad Faizul and Chen, Xi (2010) Hyperelastic and elastic-plastic approaches for modelling uniaxial tensile performance of woven fabrics / Yahya, M.F. and Chen, X. Scientific Research Journal, 7 (2). pp. 31-55. ISSN 1675-7009
repository_type Digital Repository
institution_category Local University
institution Universiti Teknologi MARA
building UiTM Institutional Repository
collection Online Access
language English
topic Finite element method
Stress waves. Deformation of materials under stress
Weaving
Textile fabrics
spellingShingle Finite element method
Stress waves. Deformation of materials under stress
Weaving
Textile fabrics
Yahya, Mohamad Faizul
Chen, Xi
Hyperelastic and elastic-plastic approaches for modelling uniaxial tensile performance of woven fabrics / Yahya, M.F. and Chen, X.
description This article presents thefindings ofexperimental andfinite element simulation warp direction uniaxial tensile testing ofplain 1/1, 2/2 twill and 8 ends satin woven fabrics with respect to a wovenfabric model developed in IGES using UniverFilter. Woven fabrics have been specifically configured as a balanced weave thereby allowing systematic investigation of the effect of uniaxial tensile stress on the weave. Static automatic incrementation of large representative volume elements has enabled characterisation ofthe response oftwo-dimensional woven fabrics under uniaxial tensile stress with respect to hyperelastic and elastic-plastic material properties. Plain 1/1 and 8 ends satin woven fabrics were well-described by the hyperelastic model and the elastic-plastic model predicted extended strain percentages. The modelling indicates that satin woven fabric possesses the lowest strain distribution and compression stress in the unloaded weft direction compared to plain and twill woven fabrics.
format Article
author Yahya, Mohamad Faizul
Chen, Xi
author_facet Yahya, Mohamad Faizul
Chen, Xi
author_sort Yahya, Mohamad Faizul
title Hyperelastic and elastic-plastic approaches for modelling uniaxial tensile performance of woven fabrics / Yahya, M.F. and Chen, X.
title_short Hyperelastic and elastic-plastic approaches for modelling uniaxial tensile performance of woven fabrics / Yahya, M.F. and Chen, X.
title_full Hyperelastic and elastic-plastic approaches for modelling uniaxial tensile performance of woven fabrics / Yahya, M.F. and Chen, X.
title_fullStr Hyperelastic and elastic-plastic approaches for modelling uniaxial tensile performance of woven fabrics / Yahya, M.F. and Chen, X.
title_full_unstemmed Hyperelastic and elastic-plastic approaches for modelling uniaxial tensile performance of woven fabrics / Yahya, M.F. and Chen, X.
title_sort hyperelastic and elastic-plastic approaches for modelling uniaxial tensile performance of woven fabrics / yahya, m.f. and chen, x.
publisher Research Management Institute (RMI)
publishDate 2010
url http://ir.uitm.edu.my/id/eprint/12937/
http://ir.uitm.edu.my/id/eprint/12937/1/AJ_MOHAMAD%20FAIZUL%20YAHYA%20SRJ%2010%201.pdf
first_indexed 2023-09-18T22:49:35Z
last_indexed 2023-09-18T22:49:35Z
_version_ 1777417454142619648

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