Effective stiffness of curved 0°-layers for stiffness determination of cross-ply non-crimp fabric composites

Effective stiffness of curved 0°-layers for stiffness determination of cross-ply non-crimp fabric composites

The effect of the 0°-tow waviness on axial stiffness of cross-ply non-crimp fabric composites is analysed using multiscale approach. The curved 0°- and 90°-layers are represented by flat layers with effective stiffness properties and classical laminate theory is used to calculate the macroscopic sti...

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Bibliographic Details
Published in:Journal of reinforced plastics and composites Vol. 33; no. 14; pp. 1339 - 1352
Main Authors: Zrida, H, Marklund, E, Ayadi, Z, Varna, J
Format: Journal Article
Language:English
Published: London, England SAGE Publications 01-07-2014
Subjects:
Boundary conditions
Classical laminate theory
Effective stiffness
Engineering Sciences
Non-crimp fabric
Polymera konstruktionsmaterial
Polymeric Composite Materials
Waviness
non-crimp fabric
Waviness
boundary conditions
classical laminate theory
effective stiffness
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Summary:The effect of the 0°-tow waviness on axial stiffness of cross-ply non-crimp fabric composites is analysed using multiscale approach. The curved 0°- and 90°-layers are represented by flat layers with effective stiffness properties and classical laminate theory is used to calculate the macroscopic stiffness. The effective 0°-layer stiffness is calculated analysing isolated curved 0°-layers subjected not only to end loading, but also to surface loads. The surface loads are identified in a detailed finite element analysis and approximated by a sinus shaped function with amplitude depending on the waves parameters. The sinus shaped surface loads are then applied to an isolated curved 0°-layer finite element model together with end loading to calculate the effective stiffness of the layer. Finally, the effective 0°-layer stiffness was successfully used to calculate the macroscopic stiffness of the composite proving validity of the approach being used and showing that, without losing accuracy, elastic properties in the 90°-layers with bundle structure can be replaced by the transverse stiffness of the homogenised 90°-layer material.
ISSN:0731-6844
1530-7964
1530-7964
DOI:10.1177/0731684414526290