Nanomaterial composition, morphology, and mechanical performance are critical
parameters for tissue engineering. Within this rapidly expanding space, tubular …

The develo** fetus is wrapped by a human amniotic membrane or amnion. Amnion is a
promising human tissue allograft in clinical application because of its chemical composition …

This work presents a power equation for the conductivity of graphene-based polymer
composites by the tunneling length, interphase deepness and filler size. The impressions of …

This study develops a model for electrical conductivity of polymer carbon nanofiber (CNF)
nanocomposites (PCNFs), which includes two steps. In the first step, Kovacs model is …

In recent decades, nanomaterials have become an integral part of biomedical research.
Halloysite nanotube (Hal) is one of the important nanomaterials, which has a key role in …

Abstract In this work, Hui-Shia model is developed to reveal the efficiency of a deficient
interphase on the tensile modulus of polymer halloysite nanotube (HNT) …

Halloysite nanotubes (HNTs) have been shown to be ideal nanoparticles for polymer
reinforcement, sustained drug release, nano-reactor synthesis, toxic material removal …

Polymeric-based drug delivery systems have become versatile and valuable candidates in
sectors such as pharmaceuticals, health, medicine, etc., due to a unique set of …

Abstract “τ c” is defined as crucial interfacial shear strength for effectual shifting of stress
through a deficient interphase and its role in the strength of nanocomposites filled with …

Abstract Conventional Halpin-Tsai model neglects the nets of filler and interphase in the
composites above mechanical percolation onset. Here, Halpin-Tsai model is developed to …