Archive/Enhancing Wood–PRF Extrudable Composites with Nanocellulose Reinforcement
Enhancing Wood–PRF Extrudable Composites with Nanocellulose Reinforcement
Japneet Kukal, Maria Soledad Peresin, Armando G. McDonald
7. Juli 2026
en

Abstract

The study investigated the addition of nanocellulose (NC) as a reinforcing agent in wood-phenol resorcinol formaldehyde (PRF) composites for thermoset extrusion-based manufacturing. Three types of NC (cellulose nanocrystals (CNC), bleached nanofibers (BNFs), and unbleached nanofibers (UBNFs)) at 1–3% loadings and new (NP) and 4-year old (OP) PRF resin were evaluated by a combination of thermal analysis, rheology and flexural testing. The NP was shown to gel at a lower temperature than OP. CNC addition advanced gelation and yield stress; whereas, UBNFs reduced viscosity and yield stress through plasticization but were suitable for extrusion. The NC-reinforced wood–PRF formulations were successfully extruded into continuous composite rods. A flexural modulus of 8.1 GPa and strength of 77 MPa was achieved. Moreover, NC was shown to reduce 24 h water absorption compared to controls. These findings show that NC reinforcement improves wood–PRF composites systems for potential sustainable additive manufacturing.

IPC Classification

B60

Keywords

enhancingwoodextrudablecompositesnanocellulosereinforcementsolidsinvestigatedadditionreinforcingagentwood-phenolresorcinolformaldehydethermosetextrusion-basedmanufacturingthreetypescellulosenanocrystalsbleachednanofibersbnfs
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