All-PP composites (PURE®) with unidirectional and cross-ply lay-ups: dynamic mechanical thermal analysis

All-PP composites (PURE®) with unidirectional and cross-ply lay-ups: dynamic mechanical thermal analysis

All polypropylene (all-PP) composite laminates with unidirectional (UD) and cross-ply (CP) lay-ups were produced by hot consolidation from oriented coextruded PP tapes (PURE®). The consolidation of the tapes, wound on a steel plate, occurred in autoclave vacuum bag molding. The set processing condit...

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Bibliographic Details
Format: Article
Language:English
Published: Budapest University of Technology 2007-08-01
Series:eXPRESS Polymer Letters
Subjects:
Polymer composites
thermal properties
polypropylene
all-polypropylene composite
Pure
Online Access:http://www.expresspolymlett.com/letolt.php?file=EPL-0000322&mi=cd
id doaj-5f86a6d953b94e56868cab1db5a88e53
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spelling doaj-5f86a6d953b94e56868cab1db5a88e532020-11-24T22:51:56ZengBudapest University of Technology eXPRESS Polymer Letters1788-618X2007-08-011851952610.3144/expresspolymlett.2007.74All-PP composites (PURE®) with unidirectional and cross-ply lay-ups: dynamic mechanical thermal analysisAll polypropylene (all-PP) composite laminates with unidirectional (UD) and cross-ply (CP) lay-ups were produced by hot consolidation from oriented coextruded PP tapes (PURE®). The consolidation of the tapes, wound on a steel plate, occurred in autoclave vacuum bag molding. The set processing conditions resulted in all-PP laminates of high rigidity as the PP copolymer surface layers of the tapes were molten and thus forming the matrix, while their PP homopolymer core remained unaffected and thus fulfilled its role as reinforcement. Specimens cut off from the laminates were subjected to dynamic mechanical thermal analysis (DMTA) in a broad temperature range (T = –50…120°C) at various frequencies (f = 10–2…101). For the DMTA results the time-temperature superposition principle was adopted and master curves in the form of storage modulus vs. frequency (f = 10–9…1020) and loss factor vs. frequency were created. http://www.expresspolymlett.com/letolt.php?file=EPL-0000322&mi=cdPolymer compositesthermal propertiespolypropyleneall-polypropylene compositePure
collection DOAJ
language English
format Article
sources DOAJ
title All-PP composites (PURE®) with unidirectional and cross-ply lay-ups: dynamic mechanical thermal analysis
spellingShingle All-PP composites (PURE®) with unidirectional and cross-ply lay-ups: dynamic mechanical thermal analysis
eXPRESS Polymer Letters
Polymer composites
thermal properties
polypropylene
all-polypropylene composite
Pure
title_short All-PP composites (PURE®) with unidirectional and cross-ply lay-ups: dynamic mechanical thermal analysis
title_full All-PP composites (PURE®) with unidirectional and cross-ply lay-ups: dynamic mechanical thermal analysis
title_fullStr All-PP composites (PURE®) with unidirectional and cross-ply lay-ups: dynamic mechanical thermal analysis
title_full_unstemmed All-PP composites (PURE®) with unidirectional and cross-ply lay-ups: dynamic mechanical thermal analysis
title_sort all-pp composites (pure®) with unidirectional and cross-ply lay-ups: dynamic mechanical thermal analysis
publisher Budapest University of Technology
series eXPRESS Polymer Letters
issn 1788-618X
publishDate 2007-08-01
description All polypropylene (all-PP) composite laminates with unidirectional (UD) and cross-ply (CP) lay-ups were produced by hot consolidation from oriented coextruded PP tapes (PURE®). The consolidation of the tapes, wound on a steel plate, occurred in autoclave vacuum bag molding. The set processing conditions resulted in all-PP laminates of high rigidity as the PP copolymer surface layers of the tapes were molten and thus forming the matrix, while their PP homopolymer core remained unaffected and thus fulfilled its role as reinforcement. Specimens cut off from the laminates were subjected to dynamic mechanical thermal analysis (DMTA) in a broad temperature range (T = –50…120°C) at various frequencies (f = 10–2…101). For the DMTA results the time-temperature superposition principle was adopted and master curves in the form of storage modulus vs. frequency (f = 10–9…1020) and loss factor vs. frequency were created.
topic Polymer composites
thermal properties
polypropylene
all-polypropylene composite
Pure
url http://www.expresspolymlett.com/letolt.php?file=EPL-0000322&mi=cd
_version_ 1725667986362073088

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