Quantitative Analysis for Polymer Degradation in the Extrusion Process

Kometani, Hideo; Matsumura, T.; Suga, Takanori; Kanai, Toshitaka

doi:10.3139/217.0092

Cited by 14 publications

(5 citation statements)

References 19 publications

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“…The decrease in molecular weight could not only be assigned to the processing temperature but also to the presence of the BAG particles [18]. The mechanical properties of the scaffold were also found to decrease drastically over the short immersion time in vitro.…”

Section: Introductionmentioning

confidence: 89%

Dissolution, bioactivity and osteogenic properties of composites based on polymer and silicate or borosilicate bioactive glass

Houaoui

Lyyra

Agniel

et al. 2020

Materials Science and Engineering: C

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Section: Introductionmentioning

confidence: 89%

Dissolution, bioactivity and osteogenic properties of composites based on polymer and silicate or borosilicate bioactive glass

Houaoui

Lyyra

Agniel

et al. 2020

Materials Science and Engineering: C

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“…The degradation makes physical properties and functional quality of a polymer worse, hence reprocessed products of high confidence are difficult to obtain. In particular, top quality is crucial in the case of thin films, for which optical and barrier properties, among other issues, play an important role [22]. These degradation processes may modify the structure and composition of the polymers and consequently change the thermal, viscoelastic and mechanical performance of the recyclates [21].…”

Section: Mechanical Recyclingmentioning

confidence: 99%

Mechanical recycling of polylactide, upgrading trends and combination of valorization techniques

Badía

Ribes‐Greus

2016

European Polymer Journal

115

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“…Therefore, for the PET/GF composites under study, the barrier melting section of the SSE is believed to increase the residence time in which glass fibers remain in contact with melted PET chains, thus maximizing the glass fiber dispersion and distribution throughout the PET. Moreover, although not measured here, some studies have shown that barrier screws are suitable for oxygen reduction in the molten polymer20 and this could help to minimize the PET degradation during extrusion, which is an additional benefit.…”

Section: Resultsmentioning

confidence: 89%

Relationship between processing method and microstructural and mechanical properties of poly(ethylene terephthalate)/short glass fiber composites

Mondadori

Nunes

Zattera

et al. 2008

J of Applied Polymer Sci

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Composites of recycled poly(ethylene terephthalate) (PET) reinforced with short glass fiber (GF) (0,20, 30, and 40 wt %) were compounded in a single-screw extruder (SSE) and in a intermeshing corotating twinscrew extruder (TSE). An SSE fitted with a barrier double-flight screw melting section in between two singleflight sections and a TSE with a typical screw configuration for this purpose were used. The composites were subsequently injection molded at two different mold temperatures (10 and 1208C), with all other operative molding parameters kept constant. The effects of processing conditions on composite microstructure, PET degree of crystallinity, and composite mechanical properties were evaluated. Appropriate dispersive and distributive mixing of the glass fiber throughout the PET matrix as well as fine composite mechanical and thermal-mechanical properties were achieved regardless of whether the composites were prepared in the SSE or TSE. The performance of the SSE was attributed to the efficiency of the barrier screw melting section in composite mixing. The mold temperature influenced the mechanical properties of the composites, by controlling of the degree of crystallinity of the PET in the composites. For a good balance of mechanical and thermal-mechanical properties, high mold temperatures are desirable, typically, 1208C for a mold cooling time of 45 s.

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Quantitative Analysis for Polymer Degradation in the Extrusion Process

Cited by 14 publications

References 19 publications

Dissolution, bioactivity and osteogenic properties of composites based on polymer and silicate or borosilicate bioactive glass

Dissolution, bioactivity and osteogenic properties of composites based on polymer and silicate or borosilicate bioactive glass

Mechanical recycling of polylactide, upgrading trends and combination of valorization techniques

Relationship between processing method and microstructural and mechanical properties of poly(ethylene terephthalate)/short glass fiber composites

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