Key factors limiting carbon nanotube strength: Structural characterization and mechanical properties of multi-walled carbon nanotubes

Abstract: In this study, the nominal tensile strength, Young's modulus and Weibull scale and shape parameter of the nominal tensile strength distribution of the MWCNTs synthesized by a thermal chemical vapor deposition (CVD) method were investigated by conducting uniaxial tensile tests. In addition, the structural defects which induced the failure of the MWCNTs were observed by a transmission electron microscope (TEM). TEM observations revealed that the MWCNTs exhibited several types of structural defects: discontinuous… Show more

“…The authors have investigated experimentally the mechanical properties of the individual MWCNTs by conducting uniaxial tensile tests that have been performed with a manipulator inside the vacuum chamber of SEM. The detailed procedure for tensile testing is described elsewhere (Yamamoto, et al, 2010;Shirasu, et al, 2017b). The measured mechanical properties including nominal tensile strength, Young's modulus and failure strain are summarized in Table 2.…”

“…It can be seen that no clear difference in the mechanical properties between as-grown and thermally annealed MWCNTs is seen, which suggests that the structural changes observed in this annealing conditions used in this study may lead to no significant effect on both the nominal tensile strength and Young's modulus. This is mainly because the as-grown MWCNTs used in this study include the structural defects, i.e., kinks and bends and discontinuous flaws that are not completely removed by thermal annealing and are still observed in the thermally annealed MWCNTs even though the as-grown MWCNTs possess an intermediate level of crystallinity (R = 0.31) (Shirasu, et al, 2017b). 3.8 ± 1.5 227 ± 103 2.0 ± 0.4 a : Shirasu, et al, (2017b) Next, the thermal expansion property of the aligned MWCNT reinforced epoxy composites was evaluated.…”

“…This is mainly because the as-grown MWCNTs used in this study include the structural defects, i.e., kinks and bends and discontinuous flaws that are not completely removed by thermal annealing and are still observed in the thermally annealed MWCNTs even though the as-grown MWCNTs possess an intermediate level of crystallinity (R = 0.31) (Shirasu, et al, 2017b). 3.8 ± 1.5 227 ± 103 2.0 ± 0.4 a : Shirasu, et al, (2017b) Next, the thermal expansion property of the aligned MWCNT reinforced epoxy composites was evaluated. The variations of the thermal strain of the pure epoxy and composites in the MWCNT alignment direction as a function of temperature difference are shown in Fig.…”

Mechanical and thermal expansion properties of aligned carbon nanotube reinforced epoxy composites

“…The authors have investigated experimentally the mechanical properties of the individual MWCNTs by conducting uniaxial tensile tests that have been performed with a manipulator inside the vacuum chamber of SEM. The detailed procedure for tensile testing is described elsewhere (Yamamoto, et al, 2010;Shirasu, et al, 2017b). The measured mechanical properties including nominal tensile strength, Young's modulus and failure strain are summarized in Table 2.…”

“…It can be seen that no clear difference in the mechanical properties between as-grown and thermally annealed MWCNTs is seen, which suggests that the structural changes observed in this annealing conditions used in this study may lead to no significant effect on both the nominal tensile strength and Young's modulus. This is mainly because the as-grown MWCNTs used in this study include the structural defects, i.e., kinks and bends and discontinuous flaws that are not completely removed by thermal annealing and are still observed in the thermally annealed MWCNTs even though the as-grown MWCNTs possess an intermediate level of crystallinity (R = 0.31) (Shirasu, et al, 2017b). 3.8 ± 1.5 227 ± 103 2.0 ± 0.4 a : Shirasu, et al, (2017b) Next, the thermal expansion property of the aligned MWCNT reinforced epoxy composites was evaluated.…”

“…This is mainly because the as-grown MWCNTs used in this study include the structural defects, i.e., kinks and bends and discontinuous flaws that are not completely removed by thermal annealing and are still observed in the thermally annealed MWCNTs even though the as-grown MWCNTs possess an intermediate level of crystallinity (R = 0.31) (Shirasu, et al, 2017b). 3.8 ± 1.5 227 ± 103 2.0 ± 0.4 a : Shirasu, et al, (2017b) Next, the thermal expansion property of the aligned MWCNT reinforced epoxy composites was evaluated. The variations of the thermal strain of the pure epoxy and composites in the MWCNT alignment direction as a function of temperature difference are shown in Fig.…”

Mechanical and thermal expansion properties of aligned carbon nanotube reinforced epoxy composites

“…In these studies, the tensile strength was calculated from either the fractured cross-sectional area (effective strength) or the cross-sectional area of the outermost layer of the MWCNT. Few research groups have examined the nominal (or engineering) strength and its Weibull distribution, which are required for investigations of crack bridging characteristics and mechanical properties of composites reinforced with MWCNTs (a detailed discussion is given in [52]). Yu et al [37] calculated the nominal tensile strengths to be in the range of 1.4-2.9 GPa, which is much lower than the effective tensile strength (11-63 GPa).…”

“…Here, we review our recent studies in which the strength properties of individual MWCNTs synthesized by a CVD method, followed by a series of high-temperature annealing steps that culminate with annealing at 2900°C, are investigated by a manipulator tool operated inside an SEM [52][53][54]. The relationship between the MWCNT structure and strength properties of MWCNTs with a significantly different nanostructure is investigated through tensile tests of individual MWCNTs, transmission electron microscope (TEM) observations, and Raman spectroscopy analysis.…”

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