Validation of near infrared spectroscopy as an age-prediction method for plastics

•We investigated NIR spectroscopy ability to predict the oxidation degree of polymers.•Aging-prediction models were experimentally derived for ABS, PE, PET and PP.•Aging time, temperature and no. of extrusion cycles were the independent variables.•The models were calibrated on artificially aged samp...

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Bibliographic Details
Published in:Resources, conservation and recycling conservation and recycling, 2020-03, Vol.154, p.104555, Article 104555
Main Authors: Alassali, Ayah, Picuno, Caterina, Bébien, Tom, Fiore, Silvia, Kuchta, Kerstin
Format: Article
Language:English
Subjects:
FTNIR spectroscopy
Plastic waste
Polymer aging
Polymer degradation
Prediction models
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Summary:•We investigated NIR spectroscopy ability to predict the oxidation degree of polymers.•Aging-prediction models were experimentally derived for ABS, PE, PET and PP.•Aging time, temperature and no. of extrusion cycles were the independent variables.•The models were calibrated on artificially aged samples and waste polymers.•The no. of extrusion cycles proved to be a key parameter for the reliability of the models. This work has two aims. Firstly, to validate the ability of experimental models derived through near infrared spectroscopy for acrylonitrile butadiene styrene (ABS), low-density polyethylene (LDPE), polyethylene terephthalate (PET), and polypropylene (PP) in predicting polymers’ aging; focusing on the degree of oxidation. Secondly, to assess the reliability of non-invasive age-predictive models on waste plastic samples and on mechanically recycled samples. Aging time, temperature and number of extrusion cycles were selected as independent variables to build the aging-prediction models, where they were calibrated on samples subjected to controlled conditions. The accuracy of the prediction models was assessed on external samples (aged under known conditions) through the cross correlation technique and the Root Mean Square Error (RMSE). The models exhibited good collinearity for the aging temperature and the number of extrusion cycles factors for all tested polymers, but not for the aging time factor. The RSME value of the aging time factor was far from zero for all polymers. Plastic waste samples provided analogous results; the aging time estimation was mostly negative in value. The estimations of aging time and number of extrusion cycles were always positive in values, where the most reasonable aging factor estimation was the number of extrusion cycles.
ISSN:0921-3449
1879-0658
DOI:10.1016/j.resconrec.2019.104555