Effects of the distribution and geometry of carbon nanotubes on the macroscopic stiffness and microscopic stresses of nanocomposites

“…The random orientation and waviness of CNT, with respect to the applied load direction and the presence of agglomerates result in drastic reduction of the effective CNT length and thus of the CNT reinforcing efficiency (Fisher et al, 2002;Shi et al, 2004;Anumandla and Gibson, 2006). The CNTpolymer interfacial interactions are also important as they dictate the performance of the PNCs, including modulus, strength, and stiffness (Andrews et al, 2002;Luo et al, 2007). Therefore, more research is needed in order to realize the full potential of CNT/ polymer composites in engineering applications.…”

3D RVE Models Able to Capture and Quantify the Dispersion, Agglomeration, and Orientation State of CNT in CNT/PP Nanocomposites

“…The random orientation and waviness of CNT, with respect to the applied load direction and the presence of agglomerates result in drastic reduction of the effective CNT length and thus of the CNT reinforcing efficiency (Fisher et al, 2002;Shi et al, 2004;Anumandla and Gibson, 2006). The CNTpolymer interfacial interactions are also important as they dictate the performance of the PNCs, including modulus, strength, and stiffness (Andrews et al, 2002;Luo et al, 2007). Therefore, more research is needed in order to realize the full potential of CNT/ polymer composites in engineering applications.…”

3D RVE Models Able to Capture and Quantify the Dispersion, Agglomeration, and Orientation State of CNT in CNT/PP Nanocomposites

“…denotes the Dirac delta function, x p is the coordinate of the force and Ω is the frequency of excitation. For nonlinear vibration analysis, the transverse displacement is expressed as, w(x, t) = ϕ(x)q(t) (23) where ϕ(x) is the function of displacement and q(t) is the function of time. The function ϕ(x) is extracted from …”

“…In this case, some of the researchers proved that for modeling of the RVE, the CNTs and its surrounding resin connectivity area can be neglected [12,19,22]. For accurate modeling of these connections, some researchers used multi-scale method [23][24][25]. Another effective factor in the modeling of the RVE is the length of the nanotubes enclosing resin; Wan et al studied the effect of the CNTs length on the mechanical properties of the RVE [26].…”

“…Another effective factor in the modeling of the RVE is the length of the nanotubes enclosing resin; Wan et al studied the effect of the CNTs length on the mechanical properties of the RVE [26]. Mechanical behavior of the RVE has been investigated by several researchers [21][22][23][24][25][26][27][28]. Till now, only limited studies have been devoted to the investigation of the vibration behavior of VE [12,27].…”

A study on nonlinear vibration behavior of CNT-based representative volume element

“…In approaching this same problem, Vijay and Gibson considered both an orientation-averaged closed-form solution for wavy CNTs [76] and FEM based results. Luo et al [78] considered regular and staggered arrays of wavy CNTs in a polymer matrix by means of asymptotic homogenization modeling, and thereby demonstrated that the longitudinal Young's modulus of nanocomposites rapidly decreases as the waviness of the CNTs increases.…”

Multiscale Modeling of Polymer–Nanotube Nanocomposites