A simple approach is described to study the aggregation/agglomeration details in polymer
nanocomposites reinforced with spherical nanoparticles. The suggested methodology for …

This paper is devoted to the development and construction of a practical Machine Learning
(ML)-based model for the prediction of tensile strength of polymer carbon nanotube (CNTs) …

Mindlin's second strain gradient continuum theory for isotropic linear elastic materials is
used to model two different kinds of size-dependent surface effects observed in the …

We performed coarse-grained MD simulations of polymer nanocomposites with spherical
nanoparticles (NPs) on the basis of the Kremer–Grest model. Cases of “aggregated” and …

Recently, the application of porous bio-nanocomposites has been considered by many
researchers for orthopedic application. Since experimental tests for obtaining the …

Understanding the mechanism of mechanical reinforcement in glassy polymer
nanocomposites is of paramount importance for their tailored design. Here, we present a …

Ever since several formations of polymer-based nanocomposites were reported, research
on their modeling, characterization, and computerized analysis methodology has been …

In the present study, Fabrication and modeling of nanocomposites with bioceramic
nanoparticles for rapid wound healing with (0wt.%, 5wt.%, 10wt.%, 15wt.% NPs) were …

This paper is concerned with the probabilistic multiscale analysis of polymeric materials
reinforced by nanoscopic fillers. More precisely, this work is devoted to the stochastic …

This research investigates the effect of single walled carbon nanotubes (SWCNTs)
dimensions in terms of diameter on the mechanical properties (longitudinal and transverse …