BioResources (Apr 2024)

Mechanical, Physical and Thermal Properties of Polylactic Acid Filament Composite Reinforced with Newly Isolated Cryptostegia grandiflora Fiber

  • Udhayakumar Arumaiselvan,
  • Mayandi Kalimuthu,
  • Rajini Nagarajan,
  • Murali Mohan,
  • Sikiru O. Ismail,
  • Faruq Mohammad,
  • Hamad A. Al-Lohedan,
  • Kumar Krishnan

Journal volume & issue
Vol. 19, no. 2
pp. 3740 – 3754

Abstract

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By leveraging the properties of natural or plant fibers and possibilities through three-dimensional (3D) printing technology, a composite filament was fabricated by incorporating newly isolated Cryptostegia grandiflora fiber (CGF), as a reinforcement with polylactic acid (PLA) by using a twin-screw extruder. The fabricated composite filament and pure PLA filament were 3D-printed, using fused deposition modeling (FDM). This study investigated the mechanical, physical, and thermal properties of the 3D-printed CGF reinforced composite filament samples. The mechanical properties of the samples fabricated with 10 wt% CGF were better than that of samples with pure PLA. In addition, impact, tensile, flexural strengths and hardness were increased by 35.6, 33.6, 14.1, and 1.7%, respectively, when compared with the sample with pure PLA. The fractured surface morphology of tensile samples showed a uniform distribution of CGF within the PLA. The addition of CGF improved the thermal stability of the 3D-printed CGF/PLA composite sample by 15%. Therefore, the printed structure could serve as an alternative material for various uses, considering contemporary concepts of sustainability, availability, environmental friendliness, and cost effectiveness.

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