I J Beyerlein et al 2009 Nanotechnology 20 485702 doi:10.1088/0957-4484/20/48/485702
I J Beyerlein1,5, P K Porwal2, Y T Zhu3, K Hu4 and X F Xu4
Show affiliationsIn this work we investigate the effects of yarn diameter and gauge length on the statistical strength of yarns spun from carbon nanotubes (CNTs). Tensile tests are conducted on a large sample set of nanostructured CNT yarns. The data show that strength varies substantially and both strength and statistical dispersion in strength decreases as yarn diameter increases. To explain these phenomena and forecast their effects on larger-scale structures, a hierarchical set of Monte Carlo simulation models is developed: the lower-scale model aims to predict the relationship between yarn nanostructure and tensile strength and the higher-scale model aims to relate the strength of CNT yarns to the strength of composites reinforced with unidirectionally aligned CNT yarns. Predictions indicate that, for both structures, the mean and statistical variation in strength will decrease as the surface twist angle, number of CNTs in cross section and gauge length of the yarn increases. The predicted reductions in variability due to yarn nanostructure will be important for determining ways to minimize the detrimental effects of increasing length scale on strength.
62.25.-g Mechanical properties of nanoscale systems
62.20.F- Deformation and plasticity
81.70.Bt Mechanical testing, impact tests, static and dynamic loads
Issue 48 (2 December 2009)
Received 6 September 2009, in final form 6 October 2009
Published 30 October 2009
I J Beyerlein et al 2009 Nanotechnology 20 485702
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