PLoS ONE (Jan 2022)

Low cost centrifugal melt spinning for distributed manufacturing of non-woven media.

  • Anton Molina,
  • Pranav Vyas,
  • Nikita Khlystov,
  • Shailabh Kumar,
  • Anesta Kothari,
  • Dave Deriso,
  • Zhiru Liu,
  • Samhita Banavar,
  • Eliott Flaum,
  • Manu Prakash

DOI
https://doi.org/10.1371/journal.pone.0264933
Journal volume & issue
Vol. 17, no. 4
p. e0264933

Abstract

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Centralized manufacturing and global supply chains have emerged as an efficient strategy for large-scale production of goods throughout the 20th century. However, while this system of production is highly efficient, it is not resilient. The COVID-19 pandemic has seen numerous supply chains fail to adapt to sudden changes in supply and demand, including those for goods critical to the pandemic response such as personal protective equipment. Here, we consider the production of the non-woven polypropylene filtration media used in face filtering respirators (FFRs). The FFR supply chain's reliance on non-woven media sourced from large, centralized manufacturing facilities led to a supply chain failure. In this study, we present an alternative manufacturing strategy that allows us to move towards a more distributed manufacturing practice that is both scalable and robust. Specifically, we demonstrate that a fiber production technique known as centrifugal melt spinning can be implemented with modified, commercially-available cotton candy machines to produce nano- and microscale non-woven fibers. We evaluate several post processing strategies to transform the produced material into viable filtration media and then characterize these materials by measuring filtration efficiency and breathability, comparing them against equivalent materials used in commercially-available FFRs. Additionally, we demonstrate that waste plastic can be processed with this technique, enabling the development of distributed recycling strategies to address the growing plastic waste crisis. Since this method can be employed at small scales, it allows for the development of an adaptable and rapidly deployable distributed manufacturing network for non-woven materials that is financially accessible to more people than is currently possible.