Application of hyperspectral imaging and chemometrics for classifying plastics with brominated flame retardants

Daniel Caballero, Marta Bevilacqua, José Manuel Amigo*

*Corresponding author for this work
8 Citations (Scopus)
43 Downloads (Pure)

Abstract

Most plastics need to incorporate flame retardants to meet fire safety standards requirements. The amount and the type of flame retardants can differ, so that in waste plastics a large variety of polymers and flame retardants can be found. The recycling of plastics containing flame retardants is increasing. However, only plastics of the same polymer type and the same additive content can be recycled together. Three models based on different chemometrics techniques applied to hyperspectral imaging in the near infrared range were developed [partial least square-discriminant analysis, decision tree (DT) and hierarchical model (HM)]. Optimal results were obtained for all classification techniques. HM shows the highest error at all levels due to the noisy spectra of the black plastics. However, DT classification gave outstanding results, considering that the sensitivity was higher than 0.9 in all cases. Thus, the application of DT with hyperspectral imaging could be used to sort plastic samples with respect to the type of polymer and the flame retardant used with a high degree of accuracy in an automated way. These findings are highly valuable for the plastic and waste management industries.

Original languageEnglish
Article numbera1
JournalJournal of Spectral Imaging
Volume8
Number of pages16
DOIs
Publication statusPublished - 2019

Keywords

  • Decision tree
  • Flame retardants
  • Hierarchical classification
  • NIR hyperspectral imaging
  • Partial least square-discrimination analysis
  • Plastics recycling
  • Polymer
  • Waste recycling

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