Prosthesis (Jun 2022)

Prosthetic Sockets: Tensile Behavior of Vacuum Infiltrated Fused Deposition Modeling Sandwich Structure Composites

  • Isaac A. Cabrera,
  • Parker J. Hill,
  • Win-Ying Zhao,
  • Trinity C. Pike,
  • Marc A. Meyers,
  • Ramesh R. Rao,
  • Albert Y. M. Lin

DOI
https://doi.org/10.3390/prosthesis4030027
Journal volume & issue
Vol. 4, no. 3
pp. 317 – 337

Abstract

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The development of novel materials will enable a new generation of prosthetic devices to be built with additive manufacturing (AM). Vacuum infiltrated sandwich structure composites are a promising approach for building prosthetic sockets via AM. In this paper, we test the tensile properties of 18 different composite material configurations using ASTM D638. These composites were manufactured using a custom vacuum infiltration method and had varying filament materials, infiltrated matrix materials, and print directions. Several material-matrix-print composites showed higher ultimate tensile strengths and reduced anisotropy compared to full-infill control samples. However, the mechanical properties of these composites were limited by a large degree of porosity due to the manufacturing method. Still, the results were sufficiently promising to create a proof of concept prosthetic socket via the vacuum infiltration method. Future research should focus on reducing porosity defects and investigating additional material-matrix-print combinations.

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