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Sustainable Production of Carbon Fiber: Effect of Crosslinking in Wool Fiber on Carbon Yields and Morphologies of Derived Carbon Fiber

journal contribution
posted on 2023-05-03, 18:17 authored by Mahbubul Hassan, Linda Schiermeister, Mark Staiger
Currently most of the carbon fibers are made from an unsustainable fossil fuel-based high purity polyacrylonitrile (PAN) and pitch. High purity PAN is not only expensive than wool fiber but also a limited quality is produced because of global shortage of its monomer. In this work, various crosslinking pathways are explored as a means of altering the yield and tensile properties of carbon fiber derived from the carbonization of crosslinked wool fiber at 800 °C under nitrogen. A range of ionic and covalent-bond-forming crosslinking agents including bifunctional carboxylic acids (succinic acid and sebacic acid), a disulfonic acid (naphthalene disulfonic acid), a dialdehyde (glyoxal) and dianhydrides (succinic anhydride and itaconic anhydride) was investigated. The resulting carbon fibers were characterized in terms of chemical composition, carbon yield, surface topology, crystal structure, hydrophilicity and tensile properties. It was found that the carbon yield can be increased by 55% by using crosslinking treatments. Carbon fiber produced from untreated and crosslinked wool fibers all exhibited superhydrophilicity. Although the tensile strength of the resulting carbon fiber was relatively low in this preliminary study, the resulting fiber could have applications in the manufacturing of thermoplastic composite materials as low modulus filler.

History

Rights statement

Copyright © 2015 American Chemical Society

Language

  • English

Does this contain Māori information or data?

  • No

Publisher

American Chemical Society

Journal title

ACS Sustainable Chemistry and Engineering

ISSN

2168-0485

Citation

Hassan, M. M., Schiermeister, L., & Staiger, M. P. (2015). Sustainable production of carbon fiber: effect of cross-linking in wool fiber on carbon yields and morphologies of derived carbon fiber. ACS Sustainable Chemistry & Engineering, 3(11), 2660-2668. doi: 10.1021/acssuschemeng.5b00994

Funder

PreSeed

Contract number

A19526

Job code

167668

Report number

FBP 56115

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