Journal ArticleDOI
Enhancement of composite scarf joint interface strength through carbon nanotube reinforcement
TLDR
In this article, the authors investigated whether there was a potentially significant improvement to scarf joint bonding that was achieved through the dispersion of carbon nanotubes (CNTs) along the interface of the composite joint.Abstract:
It was investigated whether there was a potentially significant improvement to scarf joint bonding that was achieved through the dispersion of carbon nanotubes (CNTs) along the interface of the composite joint. The study examined various factors that might affect CNT-reinforced joint interface strength. Each composite joint consisted of a vinyl-ester matrix base (DERAKANE 510-A) interlaced with a carbon fiber weave (TORAY T700CF). During the curing process, the research explored several variables concerning the CNT application. The testing included single-walled CNTs (SWCNT), and conventional and bamboo-structure multi-walled CNTs (MWCNT) with varying length, purity, and concentration levels along the surface area of the joint interface. This wide array of data demonstrated the effect of CNTs introduction at the joint interface, and provided the ideal type, size, purity level, and concentration level for composite scarf joint bond reinforcement using CNTs. Furthermore, a computational model was developed to predict the strength of the scarf joints. The predicted model agreed well with the experimental data.read more
Citations
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Journal ArticleDOI
Effect of carbon nanotube reinforcement on fracture strength of composite adhesive joints
TL;DR: In this paper, the use of carbon nanotubes (CNTs) as an epoxy adhesive additive for adhesive joints between steel-composite interfaces and composite composite interfaces was investigated.
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Study of composite joint strength with carbon nanotube reinforcement
TL;DR: In this paper, the authors investigated the benefits of using locally applied carbon nanotubes to reinforce a carbon fiber composite scarf joint, and showed that an optimal amount of carbon-nanotubes could increase the fracture toughness of the composite joint interface significantly, especially for Mode II fracture.
Journal ArticleDOI
Study of Composite Interface Fracture and Crack Growth Monitoring Using Carbon Nanotubes
TL;DR: In this paper, the authors applied carbon nanotubes along a critical composite interface not only improves fracture properties but can also be used to detect and monitor interfacial damage, and showed a linear relationship between crack length and interface resistance for the carbon fiber composites.
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Effects of joint geometry and material on stress distribution, strength and failure of bonded composite joints: an overview
TL;DR: A comprehensive literature review on the existing analytical models based on different material and geometry behaviors for both single and double-lap joints has been made to ass... as mentioned in this paper, where a detailed analysis of the existing models can be found in Section 2.
References
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Journal ArticleDOI
Advances in the science and technology of carbon nanotubes and their composites: a review
TL;DR: A review of recent advances in carbon nanotubes and their composites can be found in this article, where the authors examine the research work reported in the literature on the structure and processing of carbon Nanotubes.
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Load transfer in carbon nanotube epoxy composites
TL;DR: In this paper, the mechanical behavior of multi-walled carbon nanotube/epoxy composites was studied in both tension and compression, and it was found that the compression modulus is higher than the tensile modulus, indicating that load transfer to the nanotubes in the composite is much higher in compression.
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Review of advanced composite structures for naval ships and submarines
TL;DR: The recent applications of fiber-reinforced polymer composites to naval ships and submarines are reviewed in this article, where the major benefits of using composites instead of conventional shipbuilding materials, such as steel and aluminium alloys, are identified.
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Molecular Simulation of the Influence of Chemical Cross-Links on the Shear Strength of Carbon Nanotube-Polymer Interfaces
TL;DR: In this article, the influence of chemical cross-links between a single-walled fullerene nanotube and a polymer matrix on the matrix−nanotube shear strength has been studied using molecular dynamics simulations.
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Theoretical and computational studies of carbon nanotube composites and suspensions : Electrical and thermal conductivity
TL;DR: In this article, Monte Carlo simulations have been performed, aimed at finding a critical fractional volume (CFV) associated with the onset of percolation for randomly oriented nanotubes (or, indeed, any conductive particles with large aspect ratios) that are randomly dispersed in a low thermo- or electroconductive medium.