A low-cost digital image correlation technique for characterising the shear deformation of fabrics for draping studies

Robert S Pierce; Brian G Falzon; Mark Christopher Thompson; Romain C Boman

doi:10.1111/str.12131

A low-cost digital image correlation technique for characterising the shear deformation of fabrics for draping studies

Robert S Pierce
, Brian G Falzon
, Mark Christopher Thompson
, Romain C Boman

Queen's University Belfast

Research output: Contribution to journal › Article › peer-review

23 Citations (Scopus)

Abstract

A novel digital image correlation (DIC) technique has been developed to track changes in textile yarn orientations during shear characterisation experiments, requiring only low-cost digital imaging equipment. Fabric shear angles and effective yarn strains are calculated and visualised using this new DIC technique for bias extension testing of an aerospace grade, carbon-fibre reinforcement material with a plain weave architecture. The DIC results are validated by direct measurement, and the use of a wide bias extension sample is evaluated against a more commonly used narrow sample. Wide samples exhibit a shear angle range 25% greater than narrow samples and peak loads which are 10 times higher. This is primarily due to excessive yarn slippage in the narrow samples; hence, the wide sample configuration is recommended for characterisation of shear properties which are required for accurate modelling of textile draping.

Original language	English
Pages (from-to)	180-189
Number of pages	10
Journal	Strain
Volume	51
Issue number	3
DOIs	https://doi.org/10.1111/str.12131
Publication status	Published - 2015
Externally published	Yes

Keywords

digital image correlation fabrics/textiles mechanical testing shear behaviour Carbon fibers Costs Image analysis Shear deformation Strain measurement Textiles Wool Yarn D. digital image correlation (DIC) Digital image correlation technique Digital image correlations Direct measurement Fibre reinforcements Shear properties Weaving

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Cite this

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title = "A low-cost digital image correlation technique for characterising the shear deformation of fabrics for draping studies",

abstract = "A novel digital image correlation (DIC) technique has been developed to track changes in textile yarn orientations during shear characterisation experiments, requiring only low-cost digital imaging equipment. Fabric shear angles and effective yarn strains are calculated and visualised using this new DIC technique for bias extension testing of an aerospace grade, carbon-fibre reinforcement material with a plain weave architecture. The DIC results are validated by direct measurement, and the use of a wide bias extension sample is evaluated against a more commonly used narrow sample. Wide samples exhibit a shear angle range 25\% greater than narrow samples and peak loads which are 10 times higher. This is primarily due to excessive yarn slippage in the narrow samples; hence, the wide sample configuration is recommended for characterisation of shear properties which are required for accurate modelling of textile draping.",

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year = "2015",

doi = "10.1111/str.12131",

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AU - Thompson, Mark Christopher

AU - Boman, Romain C

PY - 2015

Y1 - 2015

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AB - A novel digital image correlation (DIC) technique has been developed to track changes in textile yarn orientations during shear characterisation experiments, requiring only low-cost digital imaging equipment. Fabric shear angles and effective yarn strains are calculated and visualised using this new DIC technique for bias extension testing of an aerospace grade, carbon-fibre reinforcement material with a plain weave architecture. The DIC results are validated by direct measurement, and the use of a wide bias extension sample is evaluated against a more commonly used narrow sample. Wide samples exhibit a shear angle range 25% greater than narrow samples and peak loads which are 10 times higher. This is primarily due to excessive yarn slippage in the narrow samples; hence, the wide sample configuration is recommended for characterisation of shear properties which are required for accurate modelling of textile draping.

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SP - 180

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JO - Strain

JF - Strain

IS - 3

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A low-cost digital image correlation technique for characterising the shear deformation of fabrics for draping studies

Abstract

Keywords

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