BioResources (Oct 2015)

Upcycling Sunflower Stems as Natural Fibers for Biocomposite Applications

  • Jean-Denis Mathias,
  • Arnaud Alzina,
  • Michel Grédiac,
  • Philippe Michaud,
  • Philippe Roux,
  • Hélène De Baynast,
  • Cédric Delattre,
  • Nicolas Dumoulin,
  • Thierry Faure,
  • Pyrène Larrey-Lassalle,
  • Narimane Mati-Baouche,
  • Fabienne Pennec,
  • Shengnan Sun,
  • Nicolas Tessier-Doyen,
  • Evelyne Toussaint,
  • Wei Wei

DOI
https://doi.org/10.15376/biores.10.4.8076-8088
Journal volume & issue
Vol. 10, no. 4
pp. 8076 – 8088

Abstract

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One of the big global, environmental, and socioeconomic challenges of today is to make a transition from fossil fuels to biomass as a sustainable supply of renewable raw materials for industry. Growing public awareness of the negative environmental effects of petrochemical-based products adds to the need for alternative production chains, especially in materials science. One option lies in the value-added upcycling of agricultural by-products, which are increasingly being used for biocomposite materials in transport and building sector applications. Here, sunflower by-product (obtained by grinding the stems) is considered as a source of natural fibers for engineered biocomposite material. Recent results are shown for the main mechanical properties of sunflower-based biocomposites and the socioeconomic impact of their use. This paper demonstrates that sunflower stem makes a good candidate feedstock for material applications. This is due not only to its physical and chemical properties, but also to its socioeconomic and environmental rationales.

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