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| Naji, M. |
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| Ertürk, Emre |
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| Azevedo, Nuno Monteiro |
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Bellisario, Denise
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Publications (7/7 displayed)
- 2024Compression molding of low-density polyethylene matrix/glass-fiber-reinforced thick laminatescitations
- 2022Nanoindentation of multifunctional smart compositescitations
- 2022Microscopic testing of carbon fiber laminates with shape memory epoxy interlayercitations
- 2017Anti-bacterial nanocomposites by silver nano-coating fragmentationcitations
- 2017Compression moulding of thermoplastic nanocomposites filled with MWCNTcitations
- 2012Laser bending of 5005 aluminum alloy sheetscitations
- 2011Effects of IR pre-curing conditions on wear resistance of metal flakes powder coatingscitations
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article
Nanoindentation of multifunctional smart composites
Abstract
Three multifunctional smart composites for next-generation applications have been studied differently through versatile nanoindentation investigation techniques. They are used in order to determine peculiarities and specific properties for the different composites and to study the charge/matrix, charge/surface, or smart functions interactions. At first, a mapping indentation test was used to check the distribution of hardness and modulus across a large region to examine any non-uniformity due to structural anomalies or changes in properties for a carbon nanotubes (CNTs)-reinforced polypropylene (PP V-2) nanocomposite. This smart composite is suitable to be used in axial impeller fans and the results can be used to improve the process of the composite produced by injection moulding. Secondly, the interfacial properties of the carbon fibre (CF) and the resin were evaluated by a push-out method utilizing the smaller indentation tip to target the individual CF and apply load to measure its displacement under loads. This is useful to evaluate the effectiveness of the surface modification on the CFs, such as sizing. Finally, nanoindentation at different temperatures was used for the probing of the in situ response of smart shape memory polymer composite (SMPC) usable in grabbing devices for aerospace applications. Furthermore, the triggering temperature of the shape memory polymer response can be determined by observing the change of indentations after the heating and cooling cycles. <br/>