Quasi-Static and Low-Velocity Impact Behavior of Intraply Hybrid Flax/Basalt Composites

Quasi-Static and Low-Velocity Impact Behavior of Intraply Hybrid Flax/Basalt Composites

In an attempt to increase the low-velocity impact response of natural fiber composites, a new hybrid intraply woven fabric based on flax and basalt fibers has been used to manufacture laminates with both thermoplastic and thermoset matrices. The matrix type (epoxy or polypropylene (PP) with or witho...

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Veröffentlicht in:Fibers 2019-03, Vol.7 (3), p.26
Hauptverfasser: Sarasini, Fabrizio, Tirillò, Jacopo, Ferrante, Luca, Sergi, Claudia, Russo, Pietro, Simeoli, Giorgio, Cimino, Francesca, Ricciardi, Maria Rosaria, Antonucci, Vincenza
Format: Artikel
Sprache:eng
Schlagworte:
Basalt
basalt fibers
Carbon
Composite materials
Coupling agents
Crack propagation
Energy
Energy absorption
Fiber composites
Flax
flax fibers
Hybridization
Impact damage
Impact response
intraply flax/basalt hybrid
Investigations
Laminates
low-velocity impact
Mechanical properties
Scanning electron microscopy
Thermosetting resins
Velocity
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Zusammenfassung:In an attempt to increase the low-velocity impact response of natural fiber composites, a new hybrid intraply woven fabric based on flax and basalt fibers has been used to manufacture laminates with both thermoplastic and thermoset matrices. The matrix type (epoxy or polypropylene (PP) with or without a maleated coupling agent) significantly affected the absorbed energy and the damage mechanisms. The absorbed energy at perforation for PP-based composites was 90% and 50% higher than that of epoxy and compatibilized PP composites, respectively. The hybrid fiber architecture counteracted the influence of low transverse strength of flax fibers on impact response, irrespective of the matrix type. In thermoplastic laminates, the matrix plasticization delayed the onset of major damage during impact and allowed a better balance of quasi-static properties, energy absorption, peak force, and perforation energy compared to epoxy-based composites.
ISSN:2079-6439
2079-6439
DOI:10.3390/fib7030026