Polarization-resolved terahertz imaging of intra- and inter-laminar damages in hybrid fiber-reinforced composite laminate subject to low-velocity impact

Terahertz imaging is applied to characterize a hybrid fiber-reinforced composite laminate subject to low-velocity impact in this study. The hybrid fiber-reinforced composite laminate comprises unidirectional glass/epoxy and carbon/epoxy plies with a cross-ply stack pattern. Both impact-induced intra...

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Published inComposites. Part B, Engineering Vol. 92; pp. 167 - 174
Main Authors Dong, Junliang, Locquet, Alexandre, Declercq, Nico F., Citrin, D.S.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.05.2016
Elsevier
Subjects
A. Hybrid
A. Polymer-matrix composites (PMCs)
B. Impact behaviour
Bioengineering
Biomaterials
Carbon fiber reinforced plastics
D. Non-destructive testing
Damage
Engineering Sciences
Fiber composites
Fittings
Glass
Imaging
Laminates
Life Sciences
Terahertz imaging
Three dimensional
A. Polymer-matrix composites (PMCs)
Terahertz imaging
B. Impact behaviour
A. Hybrid
D. Non-destructive testing
Impact behaviour Terahertz imaging
Non-destructive testing A
D
Hybrid A
Polymer-matrix composites (PMCs) B
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Abstract Terahertz imaging is applied to characterize a hybrid fiber-reinforced composite laminate subject to low-velocity impact in this study. The hybrid fiber-reinforced composite laminate comprises unidirectional glass/epoxy and carbon/epoxy plies with a cross-ply stack pattern. Both impact-induced intra- and inter-laminar damages are successfully detected, and the damage evolution throughout the thickness is also evaluated. The interaction between the terahertz polarization and carbon-fiber orientation is investigated in detail. Inter-laminar damage at the interface and the intra-laminar damage close to the same interface can be differentiated via polarization-resolved imaging. With a parameter fitting method based on multiple regression analysis, delamination is characterized quantitatively. Terahertz C- and B-scan images clearly exhibit the propagation of the damage from the top to the bottom surface in three dimensions.
AbstractList Terahertz imaging is applied to characterize a hybrid fiber-reinforced composite laminate subject to low-velocity impact in this study. The hybrid fiber-reinforced composite laminate comprises unidirectional glass/epoxy and carbon/epoxy plies with a cross-ply stack pattern. Both impact-induced intra- and inter-laminar damages are successfully detected, and the damage evolution throughout the thickness is also evaluated. The interaction between the terahertz polarization and carbon-fiber orientation is investigated in detail. Inter-laminar damage at the interface and the intra-laminar damage close to the same interface can be differentiated via polarization-resolved imaging. With a parameter fitting method based on multiple regression analysis, delamination is characterized quantitatively. Terahertz C- and B-scan images clearly exhibit the propagation of the damage from the top to the bottom surface in three dimensions.
Terahertz imaging is applied to characterize a hybrid fiber-reinforced composite laminate subject to lowvelocity impact in this study. The hybrid fiber-reinforced composite laminate comprises unidirectional glass/epoxy and carbon/epoxy plies with a cross-ply stack pattern. Both impact-induced intra-and interlaminar damages are successfully detected, and the damage evolution throughout the thickness is also evaluated. The interaction between the terahertz polarization and carbon-fiber orientation is investigated in detail. Inter-laminar damage at the interface and the intra-laminar damage close to the same interface can be differentiated via polarization-resolved imaging. With a parameter fitting method based on multiple regression analysis, delamination is characterized quantitatively. Terahertz C-and B-scan images clearly exhibit the propagation of the damage from the top to the bottom surface in three dimensions.
Author Declercq, Nico F.
Dong, Junliang
Locquet, Alexandre
Citrin, D.S.
Author_xml – sequence: 1
  givenname: Junliang
  orcidid: 0000-0003-3109-185X
  surname: Dong
  fullname: Dong, Junliang
  email: junliang.dong@gatech.edu
  organization: Georgia Tech-CNRS UMI2958, Georgia Tech Lorraine, 2 Rue Marconi, 57070 Metz, France
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  givenname: Alexandre
  surname: Locquet
  fullname: Locquet, Alexandre
  organization: Georgia Tech-CNRS UMI2958, Georgia Tech Lorraine, 2 Rue Marconi, 57070 Metz, France
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  givenname: Nico F.
  surname: Declercq
  fullname: Declercq, Nico F.
  organization: Georgia Tech-CNRS UMI2958, Georgia Tech Lorraine, 2 Rue Marconi, 57070 Metz, France
– sequence: 4
  givenname: D.S.
  surname: Citrin
  fullname: Citrin, D.S.
  email: david.citrin@ece.gatech.edu
  organization: Georgia Tech-CNRS UMI2958, Georgia Tech Lorraine, 2 Rue Marconi, 57070 Metz, France
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Keywords A. Polymer-matrix composites (PMCs)
Terahertz imaging
B. Impact behaviour
A. Hybrid
D. Non-destructive testing
Impact behaviour Terahertz imaging
Non-destructive testing A
D
Hybrid A
Polymer-matrix composites (PMCs) B
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Snippet Terahertz imaging is applied to characterize a hybrid fiber-reinforced composite laminate subject to low-velocity impact in this study. The hybrid...
Terahertz imaging is applied to characterize a hybrid fiber-reinforced composite laminate subject to lowvelocity impact in this study. The hybrid...
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StartPage 167
SubjectTerms A. Hybrid
A. Polymer-matrix composites (PMCs)
B. Impact behaviour
Bioengineering
Biomaterials
Carbon fiber reinforced plastics
D. Non-destructive testing
Damage
Engineering Sciences
Fiber composites
Fittings
Glass
Imaging
Laminates
Life Sciences
Terahertz imaging
Three dimensional
Title Polarization-resolved terahertz imaging of intra- and inter-laminar damages in hybrid fiber-reinforced composite laminate subject to low-velocity impact
URI https://dx.doi.org/10.1016/j.compositesb.2016.02.016
https://www.proquest.com/docview/1808061872
https://hal.science/hal-03048510
Volume 92
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