Litcius/Paper detail

Effect of fiber surface state on the thermomechanical and interfacial properties of in situ polymerized polyamide 6/basalt fiber composites

Martino Valentini, Olivier de Almeida, Markus Kakkonen, Gerhard Kalinka, Andrea Dorigato, Pasi Kallio, Giulia Fredi

2024Composites Part A Applied Science and Manufacturing13 citationsDOIOpen Access PDF

Abstract

This study investigates the thermomechanical properties and interfacial adhesion of novel in-situ polymerized anionic polyamide 6 (aPA6) composites reinforced with basalt fibers (BF). The impact of different BF surface states - as-received (BFa), ethanol-washed (BFw), and thermally desized (BFu) − on composite performance is examined through a comprehensive approach. For the first time, anionic PA6/BF composites with very low residual monomer content were successfully produced via thermoplastic resin transfer molding (tRTM). The PA6/BFw composites exhibited the highest interlaminar/interfacial shear strength in short beam shear test (52 ± 8 MPa) and fiber push out test (34 ± 11 MPa) tests. Fiber microdebonding test, performed only on PA6/BFw, yielded a low interfacial shear strength (12 ± 4 MPa), which was attributed to droplet porosity resulting from concurrent polymerization and crystallization. Thermal desizing significantly deteriorated interfacial strength (19.6 ± 1.2 MPa in short beam shear test). This multi-technique characterization provides insights into optimizing the fiber–matrix adhesion in these advanced thermoplastic composites.

Topics & Concepts

Materials scienceComposite materialBasalt fiberPolyamideFiberIn situIn situ polymerizationPolymerizationPolymerPhysicsMeteorologyFiber-reinforced polymer compositesNatural Fiber Reinforced CompositesMechanical Behavior of Composites