Materials & Design (Nov 2022)

Multiple assembly strategies for silica aerogel-fiber combinations – A review

  • Zahra Mazrouei-Sebdani,
  • Mohammadreza Naeimirad,
  • Stefan Peterek,
  • Hasina Begum,
  • Sandra Galmarini,
  • Franz Pursche,
  • Enes Baskin,
  • Shanyu Zhao,
  • Thomas Gries,
  • Wim J. Malfait

Journal volume & issue
Vol. 223
p. 111228

Abstract

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Silica aerogels have a unique structure that makes them promising materials for variable applications. However, they are brittle due to weak inter-particle necks, and also expensive. Combining aerogel with fibers can not only enhance the mechanical/insulation properties, but also reduce dust release, and ease practical application. The majority of review articles in this field have been on the aerogel/textile systems' application or on textile impregnation in silica sol utilizing the sol–gel technique, with a few papers also addressing the use of aerogel as filler. This review for the first time highlights all strategies to assemble silica aerogel with textile materials. For sol–gel approaches, the fibers can be impregnated in a silica precursor sol to form the aerogel in situ between the fibers, but the sol itself can also be spun into aerogel fibers. Other strategies employ pre-formed silica aerogel, mixed in polymer or solvent matrices/slurries, to form aerogel injected blankets, aerogel-filled material coated fibers, and aerogel-filled composite fibers. Aerogel particles-filled textile packages have also been proposed. The emerging activities on simulations of aerogel-fiber combinations are reviewed. The advantages/disadvantages of various approaches are evaluated, and the current market situation and an outlook for the future of the field are summarized.

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