Finite element and micromechanical modeling for investigating effective material properties of polymer–matrix nanocomposites with microfiber, reinforced by CNT arrays

Abstract: This paper is motivated by the lack of studies to investigate the effect of fiber reinforced CNT arrays on the material properties of nanocomposites. To make a comprehensive study, this research work is conducted in two ways. Firstly, the effect of microfiber as reinforcement on the effective material properties is investigated; secondly, the study is carried on as the microfibers reinforced by CNT arrays. In both above-mentioned approaches, the results are compared to the results of generalized mixture rule w… Show more

“…In the case of microsized reinforcement, the thickness of such interface can be neglected, as the ratio between the interface thickness and the fiber radius is low. In the case of nanofibers, the thickness of the interface cannot be neglected by micromechanics models [67][68][69].…”

Research on the Strengthening Advantages on Using Cellulose Nanofibers as Polyvinyl Alcohol Reinforcement

“…In the case of microsized reinforcement, the thickness of such interface can be neglected, as the ratio between the interface thickness and the fiber radius is low. In the case of nanofibers, the thickness of the interface cannot be neglected by micromechanics models [67][68][69].…”

Research on the Strengthening Advantages on Using Cellulose Nanofibers as Polyvinyl Alcohol Reinforcement

“…The remarkable mechanical properties of carbon nanotubes (CNTs), such as hardness, high strength and flexibility, low density and excellent electrical and thermal properties, have rendered them a distinguished reinforcement agent. It has been observed that the addition of 1 wt.% CNT to a matrix resulted in 36-42 % increases in the composite hardness [1,2].…”

Prediction of the elastic modulus of LLDPE/CNT nanocomposites by analytical modeling and finite element analysis

“…Lei et al used the element‐free kp ‐Ritz method for free vibration analysis of FG‐CNTRC plates in thermal environment. Eshelby–Mori–Tanaka approach and differential quadrature method are used to study on the bending and vibrational behavior of FG‐CNTRC plates and open cylindrical shells . Jafari Mehrabadi and Sobhani Aragh studied on the stresses due to bending behavior of FG‐CNTRC open cylindrical shells subjected to mechanical loads by Eshelby–Mori–Tanaka approach and generalized differential quadrature method (GDQM).…”

Thermoelastic analysis of functionally graded cylinders reinforced by wavy CNT using a mesh‐free method