Multiscale analysis of the low-velocity impact behavior of ceramic nanoparticle-reinforced metal matrix nanocomposite beams by micromechanics and finite element approaches

Abstract: An efficient multiscale analysis is proposed to investigate the dynamic behavior of metal matrix nanocomposite beams reinforced by SiC nanoparticles under low-velocity impact loads. First, an analytical micromechanics model is developed to obtain the effective elastic properties of ceramic nanoparticle-reinforced metal matrix nanocomposite, and then the finite element method is used to predict the dynamic response of beams made of this nanocomposite material. Two important microstructural features, including s… Show more

“…Reinforced composite materials are gaining widespread acceptance due to their high strength to weight ratio with enhanced functionalities. 1 These materials can be put into general use once the effective material properties were obtained and optimize the material according to the desired requirements. Homogenization of heterogeneous materials was one of the first approaches in mechanics to yield effective material response, whereas it was originally developed for elastic problems.…”

Meso–macro-scale computational analysis of boron nitride nanotube-reinforced aluminium and epoxy nanocomposites: A case study on crack propagation

“…Reinforced composite materials are gaining widespread acceptance due to their high strength to weight ratio with enhanced functionalities. 1 These materials can be put into general use once the effective material properties were obtained and optimize the material according to the desired requirements. Homogenization of heterogeneous materials was one of the first approaches in mechanics to yield effective material response, whereas it was originally developed for elastic problems.…”

Meso–macro-scale computational analysis of boron nitride nanotube-reinforced aluminium and epoxy nanocomposites: A case study on crack propagation