Evaluation of preforms stitched with a low melting-temperature thermoplastic yarn in carbon fibre-reinforced composites

A comparative assessment of the influence of assembly seams based on two different thermoplastic yarn types on key in-plane and interlaminar properties of carbon fibre-reinforced epoxy composite is presented. Non-crimped fabric (NCF) composites prepared with a thin low melting-temperature polyamide...

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Bibliographic Details
Published in:Composites. Part A, Applied science and manufacturing Applied science and manufacturing, 2008-05, Vol.39 (5), p.705-711
Main Authors: Beier, Uwe, Fischer, Frank, Sandler, Jan K.W., Altstädt, Volker, Weimer, Christian, Spanner, Hermann, Buchs, Wolfgang
Format: Article
Language:English
Subjects:
A. Polymer-matrix composites (PMCs)
A. Preform
Applied sciences
B. Mechanical properties
E. Resin transfer moulding (RTM)
Exact sciences and technology
Forms of application and semi-finished materials
Laminates
Low melting-temperature thermoplastic yarn
Polymer industry, paints, wood
Technology of polymers
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Summary:A comparative assessment of the influence of assembly seams based on two different thermoplastic yarn types on key in-plane and interlaminar properties of carbon fibre-reinforced epoxy composite is presented. Non-crimped fabric (NCF) composites prepared with a thin low melting-temperature polyamide stitching yarn showed an overall mechanical performance similar to that of the non-stitched equivalent, independent of the stitch geometry. In contrast, comparable composites prepared with a thicker standard unwashed polyester yarn revealed a clear reduction in compression and apparent interlaminar shear strength, with the exact level of degradation depending on the stitch geometry. These deviations in mechanical performance are explained on the basis of a fundamental microstructural difference of the composites following resin transfer moulding. Using the thinner meltable but immiscible polyamide yarn in the stitched preforms instead of the standard polyester yarn appears to reduce localised fibre undulations; an effect most likely inducing the observed enhancements in key composite properties relevant for aircraft applications.
ISSN:1359-835X
1878-5840
DOI:10.1016/j.compositesa.2008.02.011