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Post-consumer recycled high density polyethylene/polypropylene blend with improved overall performance through modification by impact polypropylene copolymer: morphology, properties and fracture resistance

Mehrabi Mazidi, M ; Sharif University of Technology | 2021

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  1. Type of Document: Article
  2. DOI: 10.1002/pi.6268
  3. Publisher: John Wiley and Sons Ltd , 2021
  4. Abstract:
  5. The effect of an impact polypropylene copolymer (IPC) having excellent stiffness–toughness balance on the microstructure and properties of a blend comprising 80 wt% recycled high density polyethylene (rHDPE) and 20 wt% recycled isotactic polypropylene (rPP) was studied. Morphological observations revealed improved interfacial interactions, a finer dispersion state and a more homogeneous phase morphology upon IPC incorporation into the blend up to 20 wt%. Flexural modulus, flexural strength, tensile strength and tensile ductility were steadily increased with IPC loading, and exhibited 13%, 14%, 35% and 520% improvement at 20 wt% IPC. A monotonic rise in Izod impact energy, accompanied by a transition from semi-brittle to fully ductile failure mode, was observed with IPC concentration, so that this parameter showed 110% increment at 20 wt% IPC. The change in properties was attributed to the compatibilization, toughening as well as reinforcing effects of the IPC phase in the modified blends. Melting and crystallization of the blends were studied by the DSC technique. Failure mechanisms and micro-deformations accompanying the impact fracture process of the blends were closely examined, and the role of IPC in improving the toughness and fracture resistance of the modified blends was clarified. The results were interpreted in terms of interfacial strength, efficiency of stress transfer across the phase boundaries, and stability of plastic micro-deformations during the fracture process. The results clearly demonstrate that simultaneous improvement in stiffness, strength and (impact) toughness of the incompatible rHDPE/rPP blend can be achieved by modification with a properly chosen IPC. The present work addresses some challenges, with respect to stiffness and strength, encountered with the use of conventional elastomeric and/or plastomeric olefin copolymers as common modifiers for polyolefin blends. © 2021 Society of Industrial Chemistry. © 2021 Society of Industrial Chemistry
  6. Keywords:
  7. Aliphatic compounds ; Blending ; Deformation ; Fracture ; Fracture toughness ; Morphology ; Polyethylenes ; Polypropylenes ; Stiffness ; Tensile strength ; Impact polypropylene copolymer ; Industrial chemistry ; Interfacial interaction ; Interfacial strength ; Isotactic polypropylene ; Melting and crystallization ; Microstructure and properties ; Morphological observations ; Plastic recycling
  8. Source: Polymer International ; Volume 70, Issue 12 , 2021 , Pages 1701-1716 ; 09598103 (ISSN)
  9. URL: https://onlinelibrary.wiley.com/doi/abs/10.1002/pi.6268