Litcius/Paper detail

3D‐Printed Wood‐Fiber Reinforced Architected Cellular Composites

Ehsan Estakhrianhaghighi, Armin Mirabolghasemi, Yingnan Zhang, Larry Lessard, Abdolhamid Akbarzadeh

2020Advanced Engineering Materials44 citationsDOI

Abstract

Enhancing thermomechanical properties of bio‐based polymers by the introduction of cellulose‐based compounds not only paves the way for developing sustainable materials but also opens new opportunities in low‐cost additive manufacturing. Herein, a novel accessible methodology is provided for integrating waste wood fibers, a versatile renewable resource of cellulose, into polylactic acid (PLA) polymers to produce sustainable wood‐fiber reinforced PLA (WF‐PLA) filaments and then to 3D print high‐performance architected cellular composites. The experimental results demonstrate increased stiffness (18%), ultimate strength (9%), fracture strain (15%), toughness (44%), thermal conductivity (23%), and reduced overall density (10%) for 3D‐printed composite dogbones made of optimum wood‐fiber contents, compared with the PLA counterpart. Following the growing interest in architected cellular solids, a rising class of advanced materials with superior multifunctional properties, WF‐PLA filaments are used to 3D print two quasi‐isotropic cellular materials, hexagonal and novel mixed square (“isomixed”) microarchitectures. The WF‐PLA isomixed cell exhibits considerably enhanced stiffness (91%) and ultimate strength (48%) compared with the PLA hexagonal honeycombs. The WF‐PLA architected composites offer a first‐of‐a‐kind strategy to additively manufacture sustainable advanced materials with enhanced thermomechanical properties out of low‐cost waste materials through an optimized material composition and the rational design of underlying microarchitectures.

Topics & Concepts

Materials scienceComposite materialPolylactic acidFlexural strengthFiberComposite numberCelluloseToughnessEngineered woodPolymerChemical engineeringEngineeringAdditive Manufacturing and 3D Printing Technologiesbiodegradable polymer synthesis and propertiesCellular and Composite Structures