Toward forced assembly of in situ low-density polyethylene composites reinforced with low- phosphate glass fibers: effects of matrix crystallization and shear deformation

This study is aimed at investigating the feasibility of using facile forced assembly methods (temperature and shear strain-induced orientation of the dispersed phase) to create novel "in situ" low-density polyethylene (LDPE) composites containing fibrillar inorganic phosphate glass (P-glas...

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Published in:Polymer engineering and science 2012-10, Vol.52 (10), p.2090
Main Authors: Lanneluc, Romain, Bounor-Legare, Veronique, Fulchiron, Rene, Katena, Jin, Otaigbe, Joshua U
Format: Article
Language:English
Subjects:
Chemical properties
Composition
Crystallization
Glass reinforced plastics
Mechanical properties
Polymeric composites
Production processes
Shear (Mechanics)
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container_issue 10
container_start_page 2090
container_title Polymer engineering and science
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creator Lanneluc, Romain
Bounor-Legare, Veronique
Fulchiron, Rene
Katena, Jin
Otaigbe, Joshua U
description This study is aimed at investigating the feasibility of using facile forced assembly methods (temperature and shear strain-induced orientation of the dispersed phase) to create novel "in situ" low-density polyethylene (LDPE) composites containing fibrillar inorganic phosphate glass (P-glass) reinforcing phase during the composite fabrication. Clearly, the experimental results show that unique thermo-rheological conditions exist under which the 'in situ' LDPE composites containing fibrillar P-glass with potential enhanced benefits can be prepared. DSC results showed that the P-glass has a moderate nucleating effect on the LDPE crystallization that restricts in situ deformation of the P-glass during the composite fabrication. Rheo-optical data showed that a 5% P-glass/95% LDPE hybrid composition, subjected to a shear rate of 20 [s.sup.-1] in the parallel plate configuration and 130 °C gave 'in situ' LDPE composite samples with the largest amount of P-glass fibers in the limited range of experimental conditions used. This study may spur interests in a better understanding of the potential for the gin situ' reinforcement of engineering plastics with inorganic P-glasses, at the molecular level, to produce novel gin situ' polymer composites with very high aspect ratios of the reinforcing inorganic phase. POLYM. ENG. SCI., 52:2090-2098, 2012. © 2012 Society of Plastics Engineers
doi_str_mv 10.1002/pen.23163
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Clearly, the experimental results show that unique thermo-rheological conditions exist under which the 'in situ' LDPE composites containing fibrillar P-glass with potential enhanced benefits can be prepared. DSC results showed that the P-glass has a moderate nucleating effect on the LDPE crystallization that restricts in situ deformation of the P-glass during the composite fabrication. Rheo-optical data showed that a 5% P-glass/95% LDPE hybrid composition, subjected to a shear rate of 20 [s.sup.-1] in the parallel plate configuration and 130 °C gave 'in situ' LDPE composite samples with the largest amount of P-glass fibers in the limited range of experimental conditions used. This study may spur interests in a better understanding of the potential for the gin situ' reinforcement of engineering plastics with inorganic P-glasses, at the molecular level, to produce novel gin situ' polymer composites with very high aspect ratios of the reinforcing inorganic phase. POLYM. ENG. 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source Wiley-Blackwell Read & Publish Collection
subjects Chemical properties
Composition
Crystallization
Glass reinforced plastics
Mechanical properties
Polymeric composites
Production processes
Shear (Mechanics)
title Toward forced assembly of in situ low-density polyethylene composites reinforced with low- phosphate glass fibers: effects of matrix crystallization and shear deformation
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