Investigation
of the Synthesis, Characterization and Properties of Nano Cu2Zr3O7 – HDPE Composite
Sheets
Jammula Koteswara Rao, J.S. Sagar, G.M. Madhu and Dixit Pradipkumar
Res. J. Chem. Environ; Vol. 27(9); 92-101;
doi: https://doi.org/10.25303/2709rjce920101; (2023)
Abstract
This study reports on the synthesis of Cu2Zr3O7 nanoparticles using the solution
combustion method followed by the fabrication and characterization of micro-composite
sheets of Cu2Zr3O7 - HDPE. The characterization was performed using SEM, XRD and
EDX analysis which demonstrated the effects of nano-sized Cu2Zr3O7 particles on
the crystallinity and surface morphology of the fillers and elemental analysis using
the EDX method. The dielectric behavior of the composite was investigated using
an Impedance Analyzer. The composite's tensile strength was increased as evidenced
by 34% increase in Young's modulus compared to blank HDPE for the sample with 1.5
wt% nanofiller loading.
The results indicated that the dielectric constant increased as the frequency decreased,
with higher values observed at 10 MHz. However, this trend was less pronounced at
reduced filler loadings. The loss tangent initially dropped abruptly and then gradually
as the frequency increased between 4 Hz and 1 MHz. The addition of Cu2Zr3O7 nanoparticles
resulted in increased conductivity at higher frequencies compared to pure HDPE,
with no significant frequency dependency observed at lower frequencies.
