References
- Njuguna J, Pielichowski K, Alcock JR. Epoxy-based fibre reinforced nanocomposites. Adv Eng Mater. 2007;9:835–847.
- Soutis C. Carbon fiber reinforced plastics in aircraft construction. Mater Sci Eng A. 2005;412:171–176.
- Wicks SS, de Villoria RG, Wardle BL. Interlaminar and intralaminar reinforcement of composite laminates with aligned carbon nanotubes. Compos Sci Technol. 2010;70:20–28.
- De Volder MFL, Tawfick SH, Baughman RH, et al. Carbon nanotubes: present and future commercial applications. Science. 2013;339:535–539.
- Gohardani O, Elola MC, Elizetxea C. Potential and prospective implementation of carbon nanotubes on next generation aircraft and space vehicles: a review of current and expected applications in aerospace sciences. Prog Aerosp Sci. 2014;70:42–68.
- Wichmann MHG, Sumfleth J, Gojny FH, et al. Glass-fibre-reinforced composites with enhanced mechanical and electrical properties – benefits and limitations of a nanoparticle modified matrix. Eng Fract Mech. 2006;73:2346–2359.
- Ku-Herrera JJ, Pacheco-Salazar OF, Ríos-Soberanis CR, et al. Self-sensing of damage progression in unidirectional multiscale hierarchical composites subjected to cyclic tensile loading. Sensors. 2016;16:400.
- Ma P-C, Siddiqui NA, Marom G, et al. Dispersion and functionalization of carbon nanotubes for polymer-based nanocomposites: a review. Compos Part A Appl Sci Manuf. 2010;41:1345–1367.
- Datsyuk V, Kalyva M, Papagelis K, et al. Chemical oxidation of multiwalled carbon nanotubes. Carbon. 2008;46:833–840.
- Lubineau G, Rahaman A. A review of strategies for improving the degradation properties of laminated continuous-fiber/epoxy composites with carbon-based nanoreinforcements. Carbon. 2012;50:2377–2395.
- Ku-Herrera JJ, Avilés F, Nistal A, et al. Interactions between the glass fiber coating and oxidized carbon nanotubes. Appl Surf Sci. 2015;330:383–392.
- Thakre PR, Lagoudas DC, Riddick JC, et al. Investigation of the effect of single wall carbon nanotubes on interlaminar fracture toughness of woven carbon fiber-epoxy composites. J Compos Mater. 2011;45:1091–1107.
- Godara A, Mezzo L, Luizi F, et al. Influence of carbon nanotube reinforcement on the processing and the mechanical behaviour of carbon fiber/epoxy composites. Carbon. 2009;47:2914–2923.
- Davis DC, Wilkerson JW, Zhu J, et al. A strategy for improving mechanical properties of a fiber reinforced epoxy composite using functionalized carbon nanotubes. Compos Sci Technol. 2011;71:1089–1097.
- Mujika F, Vargas G, Ibarretxe J, et al. Influence of the modification with MWCNT on the interlaminar fracture properties of long carbon fiber composites. Compos Part B Eng. 2012;43:1336–1340.
- Davis DC, Wilkerson JW, Zhu J, et al. Improvements in mechanical properties of a carbon fiber epoxy composite using nanotube science and technology. Compos Struct. 2010;92:2653–2662.
- Kim HS, Hahn HT. Graphite fiber composites interlayered with single-walled carbon nanotubes. J Compos Mater. 2011;45:1109–1120.
- Yavari F, Rafiee MA, Rafiee J, et al. Dramatic increase in fatigue life in hierarchical graphene composites. ACS Appl Mater Interfaces. 2010;2:2738–2743.
- Joshi SC, Dikshit V. Enhancing interlaminar fracture characteristics of woven CFRP prepreg composites through CNT dispersion. J Compos Mater. 2012;46:665–675.