Litcius/Paper detail

Micrometer Copper-Zinc Alloy Particles-Reinforced Wood Plastic Composites with High Gloss and Antibacterial Properties for 3D Printing

Feiwen Yang, Jianhui Zeng, Haibo Long, Jialin Xiao, Ying Luo, Jin Gu, Wuyi Zhou, Yen Wei, Xianming Dong

2020Polymers39 citationsDOIOpen Access PDF

Abstract

In this work, micrometer copper-zinc alloy particles-reinforced particleboard wood flour/poly (lactic acid) (mCu-Zn/PWF/PLA) wood plastic composites with high gloss and antibacterial properties for 3D printing were prepared by a melt blending process. The structure and properties of the composites with different contents of mCu-Zn were analyzed by means of mechanical testing, dynamic mechanical analysis, thermogravimetric analysis, differential scanning calorimetry, X-ray diffraction, scanning electron microscopy, and antibacterial testing. The results showed that the mechanical properties, thermal stability, and antibacterial performance of the composites were significantly improved, as mCu-Zn was added into the wood plastic composites. When adding 2 wt.% mCu-Zn, the flexural strength of mCu-Zn/PWF/PLA composites (with 5 wt.% of particleboard wood flour) (PWF) increased by 47.1% compared with pure poly (lactic acid) (PLA), and 18.9% compared with PWF/PLA wood plastic composites. The surface gloss was increased by 1142.6% compared with PWF/PLA wood plastic composites. Furthermore, the inhibition rates of mCu-Zn/PWF/PLA composites against Escherichia coli reached 90.43%. Therefore, this novel high gloss and antibacterial wood plastic composites for fused deposition modeling (FDM) 3D printing have potential applications in personalized and classic furniture, art, toys, etc.

Topics & Concepts

Gloss (optics)Materials scienceComposite materialThermogravimetric analysisHeat deflection temperatureWood flourFlexural strengthDifferential scanning calorimetryZinc stearateScanning electron microscopeIzod impact strength testUltimate tensile strengthChemical engineeringChemistryEngineeringCoatingRaw materialPhysicsOrganic chemistryThermodynamicsAdditive Manufacturing and 3D Printing Technologiesbiodegradable polymer synthesis and propertiesBone Tissue Engineering Materials