Polímeros (Mar 2024)

Nanocellulose reinforced starch biocomposite films via tape-casting technique

  • Giovana Ladislau Garuti,
  • Roberta Ranielle Matos de Freitas,
  • Vitor Hugo de Lima,
  • Karina Palmizani do Carmo,
  • Franciane Andrade de Pádua,
  • Vagner Roberto Botaro

DOI
https://doi.org/10.1590/0104-1428.20230084
Journal volume & issue
Vol. 34, no. 1

Abstract

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Abstract The objective of this study was to characterize the physicochemical-mechanical properties of corn and cassava starch films reinforced with CNF via Tape-Casting. There were differences in size and shape of the starch granules. Corn starch nanocomposites (NCO) showed a significant increase in tensile strength (5.14 to 25.58 MPa) and significant decrease in strain (24.81 to 2.76%) as the CNF concentration increased. Among the cassava starch nanocomposites (NCA), only the cassava starch sample with 1% CNF (NCA-1) showed significant difference both in the maximum stress (4.94 MPa) and strain (15.17%). The corn starch sample with 2% of CNF (NCO-2) presented a lower roughness and NCA-1 a smooth surface. There was no difference in chemical composition between the samples. The CNF-free starch films showed more transparency than other films. The NCA showed more transparency than NCO. Tape-casting technique unveils enhanced mechanical properties of cellulose nanofiber-reinforced starch films. Starch nanocomposites exhibit improved tensile strength and surface characteristics.

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