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Fatigue behavior and self-heating mechanism of novel glass fiber reinforced thermoplastic composite

Mustafa Bakkal, Mete Kayıhan, Azmi Timur, Zeynep Parlar, Canan Gamze Guleryuz, Aysu Hande YÜCEL, İbrahim Mehmet Palabıyık, Turgut Gülmez

2023Advanced Composite Materials12 citationsDOI

Abstract

In this study, fatigue properties of a novel continuous glass fiber reinforced composite with an acrylic-based thermoplastic matrix Elium®, have been investigated and S-N curves were obtained. The effect of various fiber orientations of the plies with glass fibers of 0°/90°/±45°, 0°/90°, and ±45° alignment has been evaluated. The highest fatigue strengths have been recorded for composites with 0°/90° glass fiber ply orientations. Composite with ±45° alignment has the lowest fatigue strengths in S-N curves. Stiffness degradation of the composites with 0°/90° and 0°/90°/±45° at medium fatigue stress levels was calculated and showed higher degradation for stacking having more off-axis plies, i.e. 0°/90°/±45° alignment. Temperature increase during fatigue testing was measured using an IR camera for a medium fatigue stress level for 0°/90°/±45° alignment. Temperature increases were calculated for all stress amplitudes for composites with 0°/90°/±45° and 0°/90° alignment cross-ply sequences. The temperatures obtained were all below the glass transition temperature of the material. The 0°/90°/±45° plies had a higher temperature effect than 0°/90° plies in both analytical calculations and observations.

Topics & Concepts

Materials scienceComposite materialThermoplasticGlass fiberComposite numberStress (linguistics)StackingGlass transitionThermoplastic compositesFiberStiffnessPolymerPhilosophyNuclear magnetic resonancePhysicsLinguisticsMechanical Behavior of CompositesNatural Fiber Reinforced CompositesMechanical Engineering and Vibrations Research
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