Pilot-scale spinning and sucrose-tetra-aldehydes-crosslinking of feather-derived protein fibers with improved mechanical properties and water resistance

Pliable and water-resistant protein fibers from feathers were developed via continuous one-step spinning and crosslinking using sucrose-tetra-aldehydes. Though flexible protein fibers from feathers were developed, poor wet stability and low tenacity still limit the large and high-end applications of...

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Bibliographic Details
Published in:Sustainable Materials and Technologies 2022-04, Vol.31, p.e00367, Article e00367
Main Authors: Mu, Bingnan, Hassan, Faqrul, Wu, Qianmei, Yang, Yiqi
Format: Article
Language:English
Subjects:
Feather wastes
Fiber production
Formaldehyde
Sucrose-tetra-aldehydes crosslinking
Wet-stability
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Summary:Pliable and water-resistant protein fibers from feathers were developed via continuous one-step spinning and crosslinking using sucrose-tetra-aldehydes. Though flexible protein fibers from feathers were developed, poor wet stability and low tenacity still limit the large and high-end applications of feather-derived fibers. Despite that saccharide aldehydes are considered as an efficient and sustainable crosslinker, substantial concerns such as generation of formaldehyde, high consumption of modifiers, loss of mechanical properties, yellowing, and decline in dyeability of fibers, exist after crosslinking. In this work, we controlled structures of crosslinkers and incorporated disaccharide-tetra-aldehydes into a continuous wet-spinning line. No formaldehyde was generated in the whole process. Protein fibers with controlled aldimine crosslinkages had not only a 92% tenacity retention after immersed in water for 1 week but also a substantial increase in mechanical properties. The dry and wet tenacity of feather-derived fibers was 120% and 90% of wool, respectively. Moreover, crosslinking from disaccharide-tetra-aldehydes retained the color of fibers and minimized the consumption of amine groups, the dyeing sites, on keratin. No toxicity was introduced by crosslinking. This work promotes resource recovery from poultry wastes, decreases the reliance of fiber industry on petroleum-based products, and diminishes environmental impact of fiber industries. •Continuous one-step spinning and crosslinking of feather-derived fibers.•Formaldehyde-free sucrose-tetra-aldehyde was to crosslink fibers•Property retention of fibers after water treatment was substantially improved•Mechanical properties at wet and dry states were substantially improved.•Crosslinking retained nontoxicity, color and dyeing sites in fibers.
ISSN:2214-9937
2214-9937
DOI:10.1016/j.susmat.2021.e00367