Structure and Properties of Reactively Extruded Opaque Post-Consumer Recycled PET

The recyclability of opaque PET, which contains TiO2 nanoparticles, has not been as well-studied as that of transparent PET. The objective of this work is to recycle post-consumer opaque PET through reactive extrusion with Joncryl. The effect of the reactive extrusion process on the molecular structure and on the thermal/mechanical/rheological properties of recycling post-consumer opaque PET (r-PET) has been analyzed. A 1% w/w Joncryl addition caused a moderate increase in the molecular weight. A moderate increase in chain length could not explain a decrease in the overall crystallization rate. This result is probably due to the presence of branches interrupting the crystallizable sequences in reactive extruded r-PET (REX-r-PET). A rheological investigation performed by SAOS/LAOS/elongational studies detected important structural modifications in REX-r-PET with respect to linear r-PET or a reference virgin PET. REX-r-PET is characterized by a slow relaxation process with enlarged elastic behaviors that are characteristic of a long-chain branched material. The mechanical properties of REX-r-PET increased because of the addition of the chain extender without a significant loss of elongation at the break. The reactive extrusion process is a suitable way to recycle opaque PET into a material with enhanced rheological properties (thanks to the production of a chain extension and long-chain branches) with mechanical properties that are comparable to those of a typical virgin PET sample.

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Study of the Thermal, Mechanical and Melt Rheological Properties of Rice Straw Filled Poly (Butylene Succinate) Bio-composites Through Reactive Extrusion Process

Journal of Polymers and the Environment ◽

10.1007/s10924-020-01973-8 ◽

2020 ◽

Author(s):

Sayan Kumar Bhattacharjee ◽

Gourhari Chakraborty ◽

Sourav Pratim Kashyap ◽

Raghvendra Gupta ◽

Vimal Katiyar

Keyword(s):

Rheological Properties ◽

Rice Straw ◽

Reactive Extrusion ◽

Extrusion Process ◽

Butylene Succinate ◽

Reactive Extrusion Process

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Radiation Induced Long Chain Branching in High-Density Polyethylene through a Reactive Extrusion Process

Macromolecular Reaction Engineering ◽

10.1002/mren.201300134 ◽

2013 ◽

Vol 8 (2) ◽

pp. 100-111 ◽

Cited By ~ 6

Author(s):

Pouyan Sardashti ◽

Costas Tzoganakis ◽

Maria A. Polak ◽

Alexander Penlidis

Keyword(s):

High Density Polyethylene ◽

Reactive Extrusion ◽

Extrusion Process ◽

High Density ◽

Chain Branching ◽

Long Chain Branching ◽

Radiation Induced ◽

Reactive Extrusion Process ◽

Long Chain

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Improved Mechanical, Thermal, and Hydrophobic Properties of PLA Modified with Alkoxysilanes by Reactive Extrusion Process

Polymers ◽

10.3390/polym13152475 ◽

2021 ◽

Vol 13 (15) ◽

pp. 2475

Author(s):

Elena Torres ◽

Aide Gaona ◽

Nadia García-Bosch ◽

Miguel Muñoz ◽

Vicent Fombuena ◽

...

Keyword(s):

Mechanical Properties ◽

Reactive Extrusion ◽

Surface Hydrophobicity ◽

Extrusion Process ◽

Mechanical And Thermal Properties ◽

Water Contact ◽

Covalent Bonds ◽

Melting Temperatures ◽

Free Process ◽

Reactive Extrusion Process

An eco-friendly strategy for the modification of polylactic acid (PLA) surface properties, using a solvent-free process, is reported. Reactive extrusion (REX) allowed the formation of new covalent bonds between functional molecules and the PLA polymeric matrix, enhancing its mechanical properties and modifying surface hydrophobicity. To this end, the PLA backbone was modified using two alkoxysilanes, phenyltriethoxysilane and N-octyltriethoxysilane. The reactive extrusion process was carried out under mild conditions, using melting temperatures between 150 and 180 °C, 300 rpm as screw speed, and a feeding rate of 3 kg·h−1. To complete the study, flat tapes of neat and functionalized PLA were obtained through monofilament melt extrusion to quantify the enhancement of mechanical properties and hydrophobicity. The results verified that PLA modified with 3 wt% of N-octyltriethoxysilane improves mechanical and thermal properties, reaching Young’s modulus values of 4.8 GPa, and PLA hydrophobic behavior, with values of water contact angle shifting from 68.6° to 82.2°.

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Preparation and characterization of high melt strength polypropylene with long chain branched structure by the reactive extrusion process

Journal of Applied Polymer Science ◽

10.1002/app.34007 ◽

2011 ◽

Vol 121 (6) ◽

pp. 3384-3392 ◽

Cited By ~ 28

Author(s):

Kun Cao ◽

Yan Li ◽

Zhan-Quan Lu ◽

Shui-Liang Wu ◽

Zhen-Hua Chen ◽

...

Keyword(s):

Reactive Extrusion ◽

Extrusion Process ◽

Melt Strength ◽

Branched Structure ◽

Reactive Extrusion Process ◽

Long Chain ◽

High Melt Strength Polypropylene

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Recycled poly(ethylene terephthalate) chain extension by a reactive extrusion process

Polymer Engineering & Science ◽

10.1002/pen.20155 ◽

2004 ◽

Vol 44 (8) ◽

pp. 1579-1587 ◽

Cited By ~ 66

Author(s):

Firas Awaja ◽

Fugen Daver ◽

Edward Kosior

Keyword(s):

Ethylene Terephthalate ◽

Reactive Extrusion ◽

Extrusion Process ◽

Chain Extension ◽

Poly Ethylene Terephthalate ◽

Poly Ethylene ◽

Reactive Extrusion Process

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A facile route to prepare few-layer graphene/polyamide 6 nanocomposites by liquid reactive extrusion

RSC Advances ◽

10.1039/c5ra14067f ◽

2015 ◽

Vol 5 (94) ◽

pp. 77316-77323 ◽

Cited By ~ 7

Author(s):

Xubing Fu ◽

Xingke Zhao ◽

Dongguang Yan ◽

Dajiang Zhao ◽

Jiao Li ◽

...

Keyword(s):

Mechanical Properties ◽

Reactive Extrusion ◽

Polyamide 6 ◽

Extrusion Process ◽

Layer Graphene ◽

Few Layer Graphene ◽

Reactive Extrusion Process ◽

Facile Route

A liquid reactive extrusion process was developed to prepare graphene/polyamide 6 nanocomposites and its crystalline and mechanical properties.

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Improving Rheological and Mechanical Properties of Various Virgin and Recycled Polypropylenes by Blending with Long-Chain Branched Polypropylene

Polymers ◽

10.3390/polym13071137 ◽

2021 ◽

Vol 13 (7) ◽

pp. 1137

Author(s):

Sascha Stanic ◽

Thomas Koch ◽

Klaus Schmid ◽

Simone Knaus ◽

Vasiliki-Maria Archodoulaki

Keyword(s):

Mechanical Properties ◽

Molecular Weight ◽

Tensile Test ◽

Reactive Extrusion ◽

Original Material ◽

Melt Flow Rate ◽

Single Screw Extruder ◽

Pp Blends ◽

The Impact ◽

Long Chain

Blends of two long-chain branched polypropylenes (LCB-PP) and five linear polypropylenes (L-PP) were prepared in a single screw extruder at 240 °C. The two LCB-PPs were self-created via reactive extrusion at 180 °C by using dimyristyl peroxydicarbonate (PODIC C126) and dilauroyl peroxide (LP) as peroxides. For blending two virgin and three recycled PPs like coffee caps, yoghurt cups and buckets with different melt flow rate (MFR) values were used. The influence of using blends was assessed by investigating the rheological (dynamic and extensional rheology) and mechanical properties (tensile test and impact tensile test). The dynamic rheology indicated that the molecular weight as well as the molecular weight distribution could be increased or broadened. Also the melt strength behavior could be improved by using the two peroxide modified LCB-PP blends on the basis of PODIC C126 or PEROXAN LP (dilauroyl peroxide). In addition, the mechanical properties were consistently enhanced or at least kept constant compared to the original material. In particular, the impact tensile strength but also the elongation at break could be increased considerably. This study showed that the blending of LCB-PP can increase the investigated properties and represents a promising option, especially when using recycled PP, which demonstrates a real “up-cycling” process.

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