00000nam 2200000za 4500 9.807440 CaOODSP 20240219183357 cr ||||||||||| 150723s2015 oncd ob f000 0 eng d CaOODSP eng eng fre n-cn--- D68-2/6-2015E-PDF Saville, Paul Matthew, 1963- Characterization of carbon nanotubes and carbon nanotube-epoxy composites [electronic resource] / Paul Saville, Brad Noren, Jessica Holley. [Ottawa] : Defence Research and Development Canada, 2015. vi, 18, [2] p. : fig., graphs, tables. Scientific report ; 2015-R006 February 2015. Includes bibliographical references (p. 15). The mechanical and electrical properties of carbon nanotube composites are attractive for a number of applications. The final properties depend on the quality of the feed stock, the amount of material used, and methods for de-aggregating and dispersing the nanotubes. Here, Fourier transform infrared spectroscopy, RAMAN spectroscopy, scanning electron microscopy, thermogravimetric analysis, and permittivity measurements are used to discern between three commercially available multi-walled carbon nanotubes (Nanocyl 7000, Cheap Tubes, and a sample of acid functionalized multi-walled nanotubes), and their epoxy composites. The RAMAN and thermogravimetric analysis data indicated that the Nanocyl had the most defects and impurities, however, the permittivity measurements and scanning electron microscopy data indicated that the Nanocyl nanotubes were well distributed in the matrix. The most important factors for dispersion and high permittivity appear to be the ability to de-aggregate the nanotubes, which is enabled by the short length, and a small diameter. The small diameter results in an overall longer length of carbon nanotube in the composite compared to an equal mass of larger diameter nanotubes. gccst Military technology gccst Nanotechnology Defence R&D Canada. Scientific report (Defence R&D Canada) 2015-R006 (CaOODSP)9.802305 PDF 732 KB https://publications.gc.ca/collections/collection_2015/rddc-drdc/D68-2-6-2015-eng.pdf DRDC-RDDC-2015-R006