Self-healing potential of stitched glass/polypropylene/epoxy hybrid composites with various fibers

Kaya, Gaye; Selver, Erdem

doi:10.1177/00219983241237948

Journal of Composite Materials

2024

DOI: 10.1177/00219983241237948

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Self-healing potential of stitched glass/polypropylene/epoxy hybrid composites with various fibers

Gaye Kaya,

Erdem Selver

Abstract: This study compares the impact damage response and self-healing potential of unstitched and stitched glass/polypropylene (PP) fiber reinforced thermoset composite structures. The novelty of this study is weaving preforms with an intra-ply hybridization of glass and thermoplastic PP fibers and stitching these preforms with a unique stitching pattern by considering the effect of stitching fiber types (PP, Kevlar®, Dyneema®, carbon and silk) on impact damage response and self-healing potential of composites. The … Show more

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Cited by 2 publications

References 33 publications

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Toughening of thermoset composites using glass/polypropylene commingled stitching yarns

Selver,

Potluri,

Dhakal

2025

Heliyon

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Toughening of thermoset composites using glass/polypropylene commingled stitching yarns

Selver,

Potluri,

Dhakal

2025

Heliyon

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Open-hole compressive response of angular stitched hybrid composites

Brückner,

Kaya

2024

Plastics, Rubber and Composites: Macromolecular Engineering

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The aim of this study is to enhance the mechanical, impact and open-hole compressive strengths of angular stitched glass/polypropylene/epoxy hybrid composites. The novelty of the study stems from the development of glass/polypropylene hybrid woven preforms and stitching these preforms at angular directions [+45°/0°/−45°/0°] using various fibres. The damages of open-hole angular stitched hybrid composites under mechanical and impact loads were compared with unstitched composites using ultrasonic C-Scan method. The angular stitching reduced the inter-ply delamination in the composite, ensured the preservation of the structural integrity and increased the absorption of impact energy depending on the stitching fibre types. Stitching caused less reduction in compressive strength of open-hole composite structures compared to unstitched composites. The performance of the stitching fibre used and its ability to compensate for the damage caused by the stitching process are critical parameters on the open-hole damage mechanism of composite structures.

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Self-healing potential of stitched glass/polypropylene/epoxy hybrid composites with various fibers

Cited by 2 publications

References 33 publications

Toughening of thermoset composites using glass/polypropylene commingled stitching yarns

Toughening of thermoset composites using glass/polypropylene commingled stitching yarns

Open-hole compressive response of angular stitched hybrid composites

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