The investigation of mechanical and dielectric properties of Samariumdoped ZnO nanoparticles
Abstract
Zn1−xSmxO nanoparticles, with 0.00 x 0.10, were prepared using chemical co-precipitation
method. The structure and morphology of the obtained samples were characterized using x-ray
powder diffraction (XRD), transmission electron microscopy (TEM) and scanning electron
microscopy (SEM), respectively. However, the mechanical properties were investigated via digital
Vickers microhardness tester. Vickers microhardness measurements were carried out at different
applied loads, varying between 0.5 and 10 N at dwell time 60 s on pressed discs of average thickness
3 mm. Hv decreased as the Sm-content increased up to 0.02 and then it increased for higher
concentrations. Whereas, it increased as the applied load increased, revealing that the samples
exhibited a reverse indentation size effect (ISE). The microhardness measurements were interpreted
using various models such as Meyer’s law, Hays and Kendall (HK) approach, elastic/plastic
deformation (EPD), proportional specimen resistance (PSR) and the indentation-induced cracking
(IIC). Mechanical parameters such as Young’s modulus(E), yield strength (Y), fracture toughness(K)
and brittleness index (B)were calculated as a function of x. The most adequate model for the true
microhardness of these samples is IIC. It was found that the addition of Sm content enhanced the
mechanical properties of the prepared samples after x = 0.02. Dielectric measurements were used to
compute different parameters such as real and imaginary parts of the complex permittivity, dielectric
loss(tan δ) and ac conductivity (σac).
Author(s)
Khalil Badreddine
Coauthor(s)
Ali Srour, Ramadan Awad, A Abou Aly
Journal/Conference Information
Materials Research Express,DOI: https://doi.org/10.1088/2053-1591/ab7064, ISSN: -, Volume: 7, Issue: -, Pages Range: 1-13,