Design strategy for the prototyping of 3D-printed continuous fiber-reinforced components for solar-powered vehicle

Authors

  • Giulia Babbi University of Bologna, Department of Industrial Engineering, via Fontanelle 40, 47121, Forlì (FC), Italy
  • Giangiacomo Minak University of Bologna, Department of Industrial Engineering, via Fontanelle 40, 47121, Forlì (FC), Italy

DOI:

https://doi.org/10.14311/APP.2024.48.0001

Keywords:

3D printing, continuous fibers, manufacturing constraints, solar-powered vehicle, Markforged®

Abstract

Continuous fiber fused filament fabrication is an advanced 3D printing method that allows designers to produce high-performing lightweight structures, leading toward innovative design philosophies and sustainable production chains. In this work, we proposed a design strategy to manufacture selected components for a solar-powered vehicle, which consists of three stages. Firstly, the prototypes’ CAD models are developed, considering their geometric and manufacturing requirements. Then, a finite element analysis is carried out to ensure optimal fiber reinforcement of prototypes’ critical regions. Lastly, the manufacturing stage involves the slicing process and optimization of the time and cost of the printed part employing Markforged® technology. Adopting the proposed methodology, the experimental campaign investigated the print quality and performance of several prototypes of each component by adjusting printing parameters.

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Published

2024-10-14

How to Cite

Design strategy for the prototyping of 3D-printed continuous fiber-reinforced components for solar-powered vehicle. (2024). Acta Polytechnica CTU Proceedings, 48, 1-8. https://doi.org/10.14311/APP.2024.48.0001