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Enhancing sustainability in polymer 3D printing via fusion filament fabrication through integration of by-products in powder form: mechanical and thermal characterization

Abstract: FFF (fused flament fabrication) is a type of 3D printing that utilizes flament for part creation. This study proposes using by-products or waste to replace part of the plastic in FFF flament, reducing environmental impact. The aim is to maintain a simple manufacturing process involving extrusion on a single-screw desktop machine followed by printing. The plastic matrix comprises polylactic acid (PLA) and polyethylene glycol (PETG), with added powdered by-products: seashells, car glass and mill scale (metal). Additives will be incorporated at 10% and 20% by weight, with two grain sizes: up to 0.09 mm and up to 0.018 mm. Mechanical tests (tensile, fexural and hardness) and thermal characterization tests will be conducted. Findings suggest adding 10%w powder of any variety to PETG increases tensile strength up to 48%, with metal powder (mill scale) showing the highest enhancement, even at 20%w, resulting in a 41% increase. Conversely, adding powder to PLA worsens mechanical properties without stifening the material; instead, the elastic modulus decreases. Metal grain size has minimal impact, with grain sizes lower than 0.09 mm optimal for PLA. Thermal conductivity in polymers blended with powder additives is lower than in virgin polymers, likely due to air void formation, supported by density and microscopic evaluations. This research underscores the potential of utilizing waste materials with a simple FFF flament production to enhance sustainability in 3D printing practices

 Autoría: Castanon-Jano L., Palomera-Obregon P., Lázaro M., Blanco-Fernandez E., Blasón S.,

 Fuente: International Journal of Advanced Manufacturing Technology, 2024, 133(3-4), 1251-1269

 Editorial: Springer

 Fecha de publicación: 01/07/2024

 Nº de páginas: 19

 Tipo de publicación: Artículo de Revista

 DOI: 10.1007/s00170-024-13635-3

 ISSN: 0268-3768,1433-3015

 Proyecto español: PID2020-112851RA-I00

 Url de la publicación: https://doi.org/10.1007/s00170-024-13635-3

Autoría

PAULA PALOMERA OBREGON

BLASÓN GONZÁLEZ, SERGIO