Christian P. Deck scite author profile

Carbon nanotubes (CNTs) have been a subject of great interest partially due to their potential for exceptional material properties. Improvements in synthesis methods have facilitated the production of ultralong CNT mats, with lengths in the millimeter range. The increased length of these ultralong mats has, in return, opened the way to greater flexibility to probe their mechanical response. In this work, mats of dense, well-aligned, multiwalled carbon nanotubes were grown with a vapor-phase chemical vapor deposition technique using ferrocene and benzene as reactants, and subsequently tested in both tension and compression using two methods, in a thermomechanical analyzer and in situ inside a scanning electron microscope. In compression, measured stiffness was very low, due to buckling of the nanotubes. In tension, the nanotube mats behaved considerably stiffer; however, they were still more compliant than expected for nanotubes (∼1TPa). Analysis of both the growth method used and the nanotube mat fracture surface suggests that the mats grown in this method are not composed of continuous nanotubes and their strengths actually closely match those of woven nanotube yarns and ropes.

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Growth mechanism of vapor phase CVD-grown multi-walled carbon nanotubes

Deck

Vecchio

2005

Carbon

105

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Stress analysis and probabilistic assessment of multi-layer SiC-based accident tolerant nuclear fuel cladding

Stone

Schleicher

Deck

et al. 2015

Journal of Nuclear Materials

100

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Christian P. Deck

Prediction of carbon nanotube growth success by the analysis of carbon–catalyst binary phase diagrams

Characterization of SiC–SiC composites for accident tolerant fuel cladding

Mechanical behavior of ultralong multiwalled carbon nanotube mats

Growth mechanism of vapor phase CVD-grown multi-walled carbon nanotubes

Stress analysis and probabilistic assessment of multi-layer SiC-based accident tolerant nuclear fuel cladding

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