Acta Mater 2008, 56:2929–2936 CrossRef 5 Hu N, Karube Y, Arai M,

Acta Mater 2008, 56:2929–2936.CrossRef 5. Hu N, Karube Y, Arai M, Watanabe T, Yan C,

Li Y, Liu Y, Fukunaga H: Investigation on sensitivity of a polymer/carbon nanotube composite strain sensor. Carbon 2010, 48:680–687.CrossRef 6. Seidel GD, Stephens SN: Analytical and computational micromechanics analysis of the effects of interphase regions on the effective coefficient of thermal expansion of carbon nanotube-polymer nanocomposites. In Proceedings of the FK228 in vivo 51st AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference: April 12–15 2010; Orlando. Reston: AIAA; 2010:2010–2809. 7. Wei C: Thermal expansion and diffusion coefficients of carbon nanotube-polymer composites. Nano Lett 2002, 2:647–650.CrossRef 8. Hu N, Fukunaga H, Lu C, Kameyama M, Yan B: Prediction of elastic properties of carbon nanotube-reinforced composites. Proc R Soc Lond A Math Phys Sci 2005, 461:1685–1710.CrossRef 9. Hu B, Hu N, Li Y, Akagi K,

Yuan W, Watanabe T, Cai Y: Multi-scale numerical simulations on piezoresistivity of CNT/polymer nanocomposites. Nanoscale Res Lett 2012, 7:402.CrossRef 10. Clancy TC, Frankland SJV, Hinkley JA, Gates TS: Multiscale modeling of thermal conductivity of polymer/carbon nanocomposites. Int J Therm Sci 2010, 49:1555–1560.CrossRef 11. Park C, Wilkinson J, Banda S, Ounaies Z, Wise KE, Sauti see more G, Lillehei PT, Harrison JS: Aligned single wall carbon nanotube polymer composites using an electric field. J Polym Sci, Part B: Polym Phys 2006, 44:1751–1762.CrossRef 12. Okabe T, Motani T, Nishikawa M, Hashimoto M: Numerical simulation of microscopic damage and strength of fiber-reinforced plastic composites. Adv Compos Mater 2012, 21:147–163.CrossRef 13. Huang H, Talreja R: Numerical simulation of matrix micro-cracking in short fiber reinforced polymer composites: initiation and propagation. Compos Sci Technol 2006, 66:2743–2757.CrossRef 14. Alamusi , Hu N, Jia B, Arai M, Yan C, Li J, Liu Y, Atobe S, Fukunaga H: Prediction of thermal expansion properties of carbon nanotubes using molecular dynamics simulations.

Comput Mater Sci 2012, 54:249–254.CrossRef 15. Yamamoto G, Liu S, Hu N, Hashida T, Liu Y, Yan C, Li Y, Cui H, Ning H, Wu L: Prediction of pull-out force of multi-walled carbon nanotube (MWCNT) in sword-in-sheath mode. Comput Mater Sci 2012, 60:607–612.CrossRef 16. Hu N, Fukunaga H, Lu C, Kameyama M, Yan B: Prediction of else elastic properties of carbon nanotube-reinforced composites. Proc R Soc A 2005, 461:1685–1710.CrossRef 17. Hu N, Wang B, Tan GW, Yao ZH, Yuan W: Effective elastic properties of 2-D solids with circular holes: numerical simulations. Compos Sci Technol 2000, 60:1811–1823.CrossRef 18. Wang YQ, Zhang MD, Zhou BL, Shi CX: A theoretical model of composite thermal expansion. Mater Sci Prog 1989, 3:442–446. 19. Hu N, Masuda Z, Yamamoto G, Fukunaga H, Hashida T, Qiu J: Effect of fabrication process on electrical properties of polymer/multi-wall carbon nanotube nanocomposites. Composites: Part A 2008, 39:893–903.

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