4.7 Article

Utilization of Antibacterial Nanoparticles in Photocurable Additive Manufacturing of Advanced Composites for Improved Public Health

Journal

POLYMERS
Volume 13, Issue 16, Pages -

Publisher

MDPI
DOI: 10.3390/polym13162616

Keywords

additive manufacturing; photopolymerization; digital light processing; nanoparticles; antimicrobial; public health

Funding

  1. Presbyterian Health Foundation (PHF) [20000243]
  2. Vice President for Research and Partnerships of the University of Oklahoma

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This study focuses on additive manufacturing and characterization of nanoparticle-reinforced photocurable resin-based nanocomposites with potential antimicrobial properties. By using digital light processing, these nanocomposites exhibit outstanding mechanical properties, surface quality, and water resistance capability, showing promise for long-term usage in improving public health.
This paper presents the additive manufacturing and characterization of nanoparticle-reinforced photocurable resin-based nanocomposites with a potential antimicrobial function for improved public health applications. Two types of photocurable resins are reinforced by titanium dioxide (TiO2) or zinc oxide (ZnO) nanoparticles with average diameters in the 10-30 nm range to provide antimicrobial properties. The developed nanocomposites can be additively manufactured using the digital light processing method with an outstanding surface quality and precise geometrical accuracy. Experimental characterizations are conducted to investigate key mechanical properties of the 3D printed nanocomposites, including Young's Modulus, tensile strength, and abrasion resistance. Specimens produced were observed to demonstrate the following characteristics during testing. Tensile strength increased by 42.2% at a maximum value of 29.53 MPa. The modulus of elasticity increased by 14.3%, and abrasion resistance increased by 15.8%. The proper dispersion of the nanoparticles within the cured resin is validated by scanning electron images. The wettability and water absorption testing results indicate that the developed nanocomposites have an outstanding water resistance capability. The pairing of digital light processing with these novel nanocomposites allows for the creation of complex composite geometries that are not capable through other manufacturing processes. Therefore, they have the potential for long-term usage to improve general public health with antimicrobial functionality. The pairing of an unmodified photocurable resin with a 1% ZnO concentration demonstrated the most promise for commercial applications.

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