Mechanical characterization of short Curauá/glass fiber-reinforced interlaminar hybrid composite adhesive joints

Mechanical characterization of short Curauá/glass fiber-reinforced interlaminar hybrid composite adhesive joints

This paper presents a study on the mechanical characterization of novel short curauá/glass fibre reinforced interlaminar hybrid composite adhesive joints. The study aims to optimize the performance of these joints by analysing their mechanical properties as a function of the number of external synth...

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Bibliographic Details
Published in:Journal of adhesion science and technology Vol. 38; no. 9; pp. 1473 - 1490
Main Authors: de Queiroz, H. F. M, Rosa, R. H. A, Neto, J. S. S., Cavalcanti, D. K. K., Banea, M. D
Format: Journal Article
Language:English
Published: Utrecht Taylor & Francis 02-05-2024
Taylor & Francis Ltd
Subjects:
Adhesive bonding
Adhesive joints
Adhesively bonded joints
Adhesives
Bonded joints
Bonding strength
Design optimization
Fabrics
Failure load
Failure modes
Fiber composites
Flexural strength
Glass fiber reinforced plastics
Glass-epoxy composites
Hybrid composites
Impact resistance
Lap joints
Mechanical properties
mechanical testing
Mechanical tests
natural fibres
Symmetry
synthetic fibres
Tensile strength
Textile composites
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Summary:This paper presents a study on the mechanical characterization of novel short curauá/glass fibre reinforced interlaminar hybrid composite adhesive joints. The study aims to optimize the performance of these joints by analysing their mechanical properties as a function of the number of external synthetic layers and the architectural symmetry. Short curauá fibres and glass fibre bidirectional fabrics were used with a bi-component epoxy matrix in order to fabricate the hybrid composite adherends. The glass fibre bidirectional fabrics were placed on the outer layers, while the short curauá fibres were used as the core of the hybrid composites. The mechanical properties of the composites used as adherends, including tensile strength, flexural strength, and impact resistance, were determined through mechanical testing. Single lap joints bonded with a structural ductile bi-component epoxy automotive adhesive were fabricated and tested for each case. The results show that the failure mode of the bonded joints is strongly influenced by the composition and configuration of the adherends' composite layers. It was found that the effect of the number of synthetic layers is highly significant for bonded joint failure load, while no significant variation was observed as a function of architecture symmetry. This study provides valuable insights into the mechanical properties of adhesively bonded joints in hybrid curauá/glass fibre reinforced composites, which can be useful in the design and optimization of these materials for various engineering applications.
ISSN:0169-4243
1568-5616
DOI:10.1080/01694243.2023.2261263