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Thiocracking of Multi-Materials: High-Strength Composites from Post-Consumer Food Packaging Jars

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  • Katelyn M. Derr

    (Department of Chemistry, Clemson University, Clemson, SC 29634, USA)

  • Rhett C. Smith

    (Department of Chemistry, Clemson University, Clemson, SC 29634, USA)

Abstract

A significant waste material threatening sustainability efforts are post-consumer food packaging goods. These ubiquitous multi-materials comprise chemically disparate components and are thus challenging targets for recycling. Herein, we undertake a proof-of-principle study in which we use a single-stage method to convert post-consumer multi-material food packaging (post-consumer peanut butter jars) to a high compressive strength composite (PBJS 90 ). This is accomplished by thiocracking the ground jar pulp (10 wt. %) with elemental sulfur (90 wt. %) at 320 °C for 2 h. This is the first application of thiocracking to such mixed-material post-consumer goods. Composite synthesis proceeded with 100% atom economy, a low E factor of 0.02, and negative global warming potential of −0.099 kg CO 2 e/kg. Furthermore, the compressive strength of PBJS 90 (37.7 MPa) is over twice that required for Portland cement building foundations. The simplicity of composite synthesis using a lower temperature/shorter heating time than needed for mineral cements, and exclusive use of waste materials as precursors are ecologically beneficial and represent an important proof-of-principle approach to using thiocracking as a strategy for upcycling multi-materials to useful composites.

Suggested Citation

  • Katelyn M. Derr & Rhett C. Smith, 2024. "Thiocracking of Multi-Materials: High-Strength Composites from Post-Consumer Food Packaging Jars," Sustainability, MDPI, vol. 16(16), pages 1-18, August.
    • Handle: RePEc:gam:jsusta:v:16:y:2024:i:16:p:7023-:d:1457334
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    References listed on IDEAS

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    1. Coralie Jehanno & Jill W. Alty & Martijn Roosen & Steven Meester & Andrew P. Dove & Eugene Y.-X. Chen & Frank A. Leibfarth & Haritz Sardon, 2022. "Critical advances and future opportunities in upcycling commodity polymers," Nature, Nature, vol. 603(7903), pages 803-814, March.
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