Interlaminar/interfiber failure of unidirectional glass fiber reinforced composites used for wind turbine blades

Martin Klitgaard Leong; Lars C. T. Overgaard; Isaac  M. Daniel,; Erik Lund; Ole Thybo Thomsen

doi:10.1177/0021998312440132

Interlaminar/interfiber failure of unidirectional glass fiber reinforced composites used for wind turbine blades

Martin Klitgaard Leong, Lars C. T. Overgaard, Isaac M. Daniel,, Erik Lund, Ole Thybo Thomsen

Solid and Computational Mechanics

Research output: Contribution to journal › Journal article › Research › peer-review

14 Citations (Scopus)

Abstract

A unidirectional glass fiber/epoxy composite was characterized under multi-axial loading by testing off-axis specimens
under uniaxial tension and compression at various angles relative to the fiber direction. Iosipescu shear tests were
performed with both symmetric and asymmetric specimens. Tests were performed on both 1-2 and 1-3 material
coordinate planes. Strain gauges and Digital Image Correlation were used to record the stress–strain responses.
A new approach was used to define a ‘failure initiation strength’ by analyzing the recorded stress–strain curves.
The experimentally determined failure stresses were compared with the predictions of the maximum stress, Tsai-Wu
and Northwestern University failure criteria. It was found that using the approach of analyzing the stress–strain curve to
define a point of material failure initiation, it was possible to obtain good correlation between the experimental data and
predictions by both the Tsai-Wu and the NU failure criteria.

Original language	English
Journal	Journal of Composite Materials
Volume	47
Issue number	3
Pages (from-to)	353-368
Number of pages	17
ISSN	0021-9983
DOIs	https://doi.org/10.1177/0021998312440132
Publication status	Published - 2013

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Cite this

@article{b42def9c0f63413ebcc8ff5f7db3e094,

title = "Interlaminar/interfiber failure of unidirectional glass fiber reinforced composites used for wind turbine blades",

abstract = "A unidirectional glass fiber/epoxy composite was characterized under multi-axial loading by testing off-axis specimens under uniaxial tension and compression at various angles relative to the fiber direction. Iosipescu shear tests were performed with both symmetric and asymmetric specimens. Tests were performed on both 1-2 and 1-3 material coordinate planes. Strain gauges and Digital Image Correlation were used to record the stress–strain responses. A new approach was used to define a {\textquoteleft}failure initiation strength{\textquoteright} by analyzing the recorded stress–strain curves. The experimentally determined failure stresses were compared with the predictions of the maximum stress, Tsai-Wu and Northwestern University failure criteria. It was found that using the approach of analyzing the stress–strain curve to define a point of material failure initiation, it was possible to obtain good correlation between the experimental data and predictions by both the Tsai-Wu and the NU failure criteria.",

author = "Leong, {Martin Klitgaard} and Overgaard, {Lars C. T.} and {M. Daniel,}, Isaac and Erik Lund and Thomsen, {Ole Thybo}",

year = "2013",

doi = "10.1177/0021998312440132",

language = "English",

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pages = "353--368",

journal = "Journal of Composite Materials",

issn = "0021-9983",

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T1 - Interlaminar/interfiber failure of unidirectional glass fiber reinforced composites used for wind turbine blades

AU - Leong, Martin Klitgaard

AU - Overgaard, Lars C. T.

AU - M. Daniel,, Isaac

AU - Lund, Erik

AU - Thomsen, Ole Thybo

PY - 2013

Y1 - 2013

N2 - A unidirectional glass fiber/epoxy composite was characterized under multi-axial loading by testing off-axis specimens under uniaxial tension and compression at various angles relative to the fiber direction. Iosipescu shear tests were performed with both symmetric and asymmetric specimens. Tests were performed on both 1-2 and 1-3 material coordinate planes. Strain gauges and Digital Image Correlation were used to record the stress–strain responses. A new approach was used to define a ‘failure initiation strength’ by analyzing the recorded stress–strain curves. The experimentally determined failure stresses were compared with the predictions of the maximum stress, Tsai-Wu and Northwestern University failure criteria. It was found that using the approach of analyzing the stress–strain curve to define a point of material failure initiation, it was possible to obtain good correlation between the experimental data and predictions by both the Tsai-Wu and the NU failure criteria.

AB - A unidirectional glass fiber/epoxy composite was characterized under multi-axial loading by testing off-axis specimens under uniaxial tension and compression at various angles relative to the fiber direction. Iosipescu shear tests were performed with both symmetric and asymmetric specimens. Tests were performed on both 1-2 and 1-3 material coordinate planes. Strain gauges and Digital Image Correlation were used to record the stress–strain responses. A new approach was used to define a ‘failure initiation strength’ by analyzing the recorded stress–strain curves. The experimentally determined failure stresses were compared with the predictions of the maximum stress, Tsai-Wu and Northwestern University failure criteria. It was found that using the approach of analyzing the stress–strain curve to define a point of material failure initiation, it was possible to obtain good correlation between the experimental data and predictions by both the Tsai-Wu and the NU failure criteria.

U2 - 10.1177/0021998312440132

DO - 10.1177/0021998312440132

M3 - Journal article

SN - 0021-9983

VL - 47

SP - 353

EP - 368

JO - Journal of Composite Materials

JF - Journal of Composite Materials

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ER -