Influence of stacking angle of carbon fibers on fracture behavior of TiNi fiber impregnated CFRP composites

Byung Koog Jang; Teruo Kishi

doi:10.1016/j.jallcom.2005.08.077

Influence of stacking angle of carbon fibers on fracture behavior of TiNi fiber impregnated CFRP composites

Byung Koog Jang, Teruo Kishi

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

5 Citations (Scopus)

Abstract

TiNi/CFRP composites have been fabricated by hot-pressing at a temperature of 180 °C. The CFRP layers were stacked with the carbon fibers at angles of 0°, 30°, 60° or 90° relative to the tensile direction. The fracture behavior was studied using notched specimens, which act as one-dimensional AE sources during tensile testing, to determine the fracture mode of the composites. Detection of strong Lamb waves shows that fracture in TiNi/CFRP composites with a 0° stacking configuration is mostly due to fiber breakage, which accounts for the high tensile strength of this configuration. In contrast, specimens with high stacking angles mainly fail by matrix cracking, with the production of weak Lamb waves, resulting in lower tensile strengths.

Original language	English
Pages (from-to)	208-212
Number of pages	5
Journal	Journal of Alloys and Compounds
Volume	419
Issue number	1-2
DOIs	https://doi.org/10.1016/j.jallcom.2005.08.077
Publication status	Published - Aug 10 2006
Externally published	Yes

All Science Journal Classification (ASJC) codes

Mechanics of Materials
Mechanical Engineering
Metals and Alloys
Materials Chemistry

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10.1016/j.jallcom.2005.08.077

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title = "Influence of stacking angle of carbon fibers on fracture behavior of TiNi fiber impregnated CFRP composites",

abstract = "TiNi/CFRP composites have been fabricated by hot-pressing at a temperature of 180 °C. The CFRP layers were stacked with the carbon fibers at angles of 0°, 30°, 60° or 90° relative to the tensile direction. The fracture behavior was studied using notched specimens, which act as one-dimensional AE sources during tensile testing, to determine the fracture mode of the composites. Detection of strong Lamb waves shows that fracture in TiNi/CFRP composites with a 0° stacking configuration is mostly due to fiber breakage, which accounts for the high tensile strength of this configuration. In contrast, specimens with high stacking angles mainly fail by matrix cracking, with the production of weak Lamb waves, resulting in lower tensile strengths.",

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T1 - Influence of stacking angle of carbon fibers on fracture behavior of TiNi fiber impregnated CFRP composites

AU - Jang, Byung Koog

AU - Kishi, Teruo

PY - 2006/8/10

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N2 - TiNi/CFRP composites have been fabricated by hot-pressing at a temperature of 180 °C. The CFRP layers were stacked with the carbon fibers at angles of 0°, 30°, 60° or 90° relative to the tensile direction. The fracture behavior was studied using notched specimens, which act as one-dimensional AE sources during tensile testing, to determine the fracture mode of the composites. Detection of strong Lamb waves shows that fracture in TiNi/CFRP composites with a 0° stacking configuration is mostly due to fiber breakage, which accounts for the high tensile strength of this configuration. In contrast, specimens with high stacking angles mainly fail by matrix cracking, with the production of weak Lamb waves, resulting in lower tensile strengths.

AB - TiNi/CFRP composites have been fabricated by hot-pressing at a temperature of 180 °C. The CFRP layers were stacked with the carbon fibers at angles of 0°, 30°, 60° or 90° relative to the tensile direction. The fracture behavior was studied using notched specimens, which act as one-dimensional AE sources during tensile testing, to determine the fracture mode of the composites. Detection of strong Lamb waves shows that fracture in TiNi/CFRP composites with a 0° stacking configuration is mostly due to fiber breakage, which accounts for the high tensile strength of this configuration. In contrast, specimens with high stacking angles mainly fail by matrix cracking, with the production of weak Lamb waves, resulting in lower tensile strengths.

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JO - Journal of Alloys and Compounds

JF - Journal of Alloys and Compounds

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ER -

Influence of stacking angle of carbon fibers on fracture behavior of TiNi fiber impregnated CFRP composites

Abstract

All Science Journal Classification (ASJC) codes

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