Characterization of piezoresistance behavior in a CFRP unidirectional laminate

This paper aims at characterizing the piezoresistance behavior in a carbon fiber reinforced plastics (CFRP) unidirectional laminate under mechanical loading. A two-dimensional model is proposed using a DC circuit equivalent to an electric resistance network in the laminate to predict the resistance...

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Published inComposites science and technology Vol. 65; no. 2; pp. 231 - 239
Main Authors Ogi, Keiji, Takao, Yoshihiro
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.02.2005
Elsevier
Subjects
A. Carbon fibers
Applied sciences
B. Electrical properties
Exact sciences and technology
Forms of application and semi-finished materials
Laminates
Modeling
Polymer industry, paints, wood
Technology of polymers
A. Carbon fibers
B. Electrical properties
Modeling
Electrical properties
Laminate
Unidirectional fiber material
Fiber reinforced material
Epoxy resin
Two dimensional model
Experimental study
Electric circuit
Surface electrical conductivity
Composite material
Tensile stress
Comparative study
Piezoresistance
Carbon fiber
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Abstract This paper aims at characterizing the piezoresistance behavior in a carbon fiber reinforced plastics (CFRP) unidirectional laminate under mechanical loading. A two-dimensional model is proposed using a DC circuit equivalent to an electric resistance network in the laminate to predict the resistance change due to tensile loading. The surface resistivity and the initial gage factor are expressed as a function of the off-axis angle in the model. The piezoresistance behavior in the fiber and transverse directions is predicted based on the resistance model associated with the probabilistic failure of conduction paths parallel and perpendicular to the fiber direction. The measured resistance in these directions increases linearly within the small tensile strain, while it increases nonlinearly at large strains. The measured resistance in the off-axis directions exhibits remarkable nonlinearity except the first linear region. The predicted initial gage factor becomes the maximum at an off-axis angle of 12° and is in reasonably good agreement with the experimental results.
AbstractList This paper aims at characterizing the piezoresistance behavior in a carbon fiber reinforced plastics (CFRP) unidirectional laminate under mechanical loading. A two-dimensional model is proposed using a DC circuit equivalent to an electric resistance network in the laminate to predict the resistance change due to tensile loading. The surface resistivity and the initial gage factor are expressed as a function of the off axis angle in the model. The piezoresistance behavior in the fiber and transverse directions is predicted based on the resistance model associated with the probabilistic failure of conduction paths parallel and perpendicular to the fiber direction. The measured resistance in these directions increases linearly within the small tensile strain, while it increases nonlinearly at large strains. The measured resistance in the off-axis directions exhibits remarkable nonlinearity except the first linear region. The predicted initial gage factor becomes the maximum at an off axis angle of 12DG and is in reasonably good agreement with the experimental results.
This paper aims at characterizing the piezoresistance behavior in a carbon fiber reinforced plastics (CFRP) unidirectional laminate under mechanical loading. A two-dimensional model is proposed using a DC circuit equivalent to an electric resistance network in the laminate to predict the resistance change due to tensile loading. The surface resistivity and the initial gage factor are expressed as a function of the off-axis angle in the model. The piezoresistance behavior in the fiber and transverse directions is predicted based on the resistance model associated with the probabilistic failure of conduction paths parallel and perpendicular to the fiber direction. The measured resistance in these directions increases linearly within the small tensile strain, while it increases nonlinearly at large strains. The measured resistance in the off-axis directions exhibits remarkable nonlinearity except the first linear region. The predicted initial gage factor becomes the maximum at an off-axis angle of 12° and is in reasonably good agreement with the experimental results.
Author Ogi, Keiji
Takao, Yoshihiro
Author_xml – sequence: 1
  givenname: Keiji
  surname: Ogi
  fullname: Ogi, Keiji
  email: kogi@eng.ehime-u.ac.jp
  organization: Department of Materials Science and Engineering, Ehime University, Matsuyama 790-8577, Japan
– sequence: 2
  givenname: Yoshihiro
  surname: Takao
  fullname: Takao, Yoshihiro
  organization: Research Institute for Applied Mechanics, Kyushu University, Kasuga, Fukuoka 816-8580, Japan
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Issue 2
Keywords A. Carbon fibers
B. Electrical properties
Modeling
Electrical properties
Laminate
Unidirectional fiber material
Fiber reinforced material
Epoxy resin
Two dimensional model
Experimental study
Electric circuit
Surface electrical conductivity
Composite material
Tensile stress
Comparative study
Piezoresistance
Carbon fiber
Language English
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Snippet This paper aims at characterizing the piezoresistance behavior in a carbon fiber reinforced plastics (CFRP) unidirectional laminate under mechanical loading. A...
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elsevier
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StartPage 231
SubjectTerms A. Carbon fibers
Applied sciences
B. Electrical properties
Exact sciences and technology
Forms of application and semi-finished materials
Laminates
Modeling
Polymer industry, paints, wood
Technology of polymers
Title Characterization of piezoresistance behavior in a CFRP unidirectional laminate
URI https://dx.doi.org/10.1016/j.compscitech.2004.07.005
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https://search.proquest.com/docview/29223682
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