Polymers (Nov 2020)

Physical and Chemical Properties Characterization of 3D-Printed Substrates Loaded with Copper-Nickel Nanowires

  • Ely Dannier V-Niño,
  • Quentin Lonne,
  • Andrés Díaz Lantada,
  • Enrique Mejía-Ospino,
  • Hugo Armando Estupiñán Durán,
  • Rafael Cabanzo Hernández,
  • Gustavo Ramírez-Caballero,
  • José Luis Endrino

DOI
https://doi.org/10.3390/polym12112680
Journal volume & issue
Vol. 12, no. 11
p. 2680

Abstract

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This study deals with the laser stereolithography manufacturing feasibility of copper-nickel nanowire-loaded photosensitive resins. The addition of nanowires resulted in a novel resin suitable for additive manufacturing technologies based on layer-by-layer photopolymerization. The pure and nanowire-loaded resin samples were 3D printed in a similar way. Their morphological, mechanical, thermal, and chemical properties were characterized. X-ray computed tomography revealed that 0.06 vol % of the composite resin was filled with nanowires forming randomly distributed aggregates. The increase of 57% in the storage modulus and 50% in the hardness when loading the resin with nanowire was attributed to the load transfer. Moreover, the decrease in the glass transition temperature from 57.9 °C to 52.8 °C in the polymeric matrix with nanowires evidenced a decrease in the cross-linking density, leading to a higher mobility of the polymer chains during glass transition. Consequently, this research demonstrates the successful dispersion and use of copper-nickel nanowires as a reinforcement material in a commercial resin for laser stereolithography.

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