Recycling effects on the bending, rheological, and structural properties of glass fiber-reinforced isotactic polypropylene composites

In the present work, a combination of virgin polypropylene and E-glass fiber was subjected to ten (10) reprocessing cycles via extrusion and compression molding techniques to mimic recycling and its impacts on the bending properties of the composites. The samples were characterized using Fourier tra...

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Published in:Journal of reinforced plastics and composites 2024-05, Vol.43 (9-10), p.532-546
Main Authors: Achukwu, EO, Owen, MM, Danladi, A, Dauda, BM, Romli, AZ, Shuib, Solehuddin B, Ishiaku, US, Hazizan, Akil Md
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cited_by cdi_FETCH-LOGICAL-c284t-dcccb4f2d27745a674872596631155e7c5665ba8ed40048526673e03a38e4bf63
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container_end_page 546
container_issue 9-10
container_start_page 532
container_title Journal of reinforced plastics and composites
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creator Achukwu, EO
Owen, MM
Danladi, A
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Hazizan, Akil Md
description In the present work, a combination of virgin polypropylene and E-glass fiber was subjected to ten (10) reprocessing cycles via extrusion and compression molding techniques to mimic recycling and its impacts on the bending properties of the composites. The samples were characterized using Fourier transform infrared (FTIR) spectroscopy, x-ray diffraction (XRD), scanning electron microscopy (SEM), and melt flow index (MFI). The results revealed a gradual depreciation in flexural properties after each reprocessing cycle. The XRD analysis indicated a substantial reduction of peak intensities, degrees of crystallinities, and average crystallite sizes, explaining the lowered flexural properties in addition to a possible reduction in glass fiber lengths (fiber attrition). Melt-processing behavior shows a progressive increase of MFI from 7 to 19.16 g/10 min, confirming the probable damage in molecular weight and loss of complex viscosity. Chemical and structural analysis showed no alteration in the polypropylene major functional groups. It is concluded that the reductions in molecular weight and composites’ properties occurred due to chain scission from recycling effects; hence, glass fiber-reinforced polypropylene composites can be recycled only three (3) times unless it is refreshed by the addition of virgin parts to compensate for the lost property.
doi_str_mv 10.1177/07316844231167552
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title Recycling effects on the bending, rheological, and structural properties of glass fiber-reinforced isotactic polypropylene composites
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