Coupled systems mechanics

  • 제12권5호
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  • Pages.445-459
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  • 2023
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  • 2234-2184(pISSN)
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  • 2234-2192(eISSN)
테크노프레스 (Techno-Press)
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Hybrid infrared-visible multiview correlation to study damage in a woven composite complex-shaped specimen

  • Andrija Zaplatic (Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb) ;
  • Zvonimir Tomicevic (Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb) ;
  • Xuyang Chang (Universite Paris-Saclay, CentraleSupelec) ;
  • Ivica Skozrit (Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb) ;
  • Stephane Roux (Universite Paris-Saclay, CentraleSupelec) ;
  • Francois Hild (Universite Paris-Saclay, CentraleSupelec)
  • 투고 : 2023.05.28
  • 심사 : 2023.07.29
  • 발행 : 2023.10.25
⟨ 이전 논문 다음 논문 ⟩

초록

In this study, a cyclic tensile test on a notched butterfly specimen made of woven glass fiber composite was performed on a modified Arcan fixture. During the mechanical test, the sample was monitored with a hybrid stereoscopic system comprised of two visible lights and one infrared camera. The visible light cameras were employed for kinematic measurements using a finite-element-based multiview correlation technique. A semi-hybrid correlation approach was followed, providing Lagrangian temperature fields of the Region of Interest. Due to the complex composite architecture and specimen shape, localized shearing was observed during the tensile loading. Furthermore, asymmetrical damage developed around the notches as revealed by localized strains and thermal hot spots.

키워드

과제정보

This work was performed within the FULLINSPECT project supported by the Croatian Science Foundation (UIP-2019-04-5460 Grant). AZ was also supported through the Incoming International Scholarship Program of ENS Paris-Saclay. This work was also partially supported by the European Union through the European Regional Development Fund, Operational Programme "Competitiveness and Cohesion" 2014-2020 of the Republic of Croatia, project "Improvement of high-efficiency welding technology" (ImproWE, KK.01.1.1.07.0076).

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