Abstract:
The present work is focused on the influence of substitutions rare earth ions in Ni-Zn
ferrites. Three series of ferrite samples of the compositions Ni0.60Zn0.40-xLaxFe2O4
(where x = 0.05, 0.10 and 0.15), Ni0.60Zn0.40-xYxFe2O4 [x = 0.05, 0.10 and 0.15] and
Ni0.60Zn0.40-xEuxFe2O4 [x = 0.05, 0.10 and 0.15] were prepared by using solid state
reaction technique. The phase identification was carried out by using the X-ray
diffraction (XRD). The XRD analysis revealed that undoped rare earth in sample
shows formulation of cubic spinel structure with no extra peak but other three RE (La,
Y and Eu) doped samples show additional peaks other spinel structure and
corresponding to a second orthoferrite phase. Lattice parameters of all three series
slightly decrease with increasing x-content. A slightly increase in bulk density has
been found with increasing RE content. The average grain size increases significantly
with increasing RE content. The increase in density and grain growth of the samples
may be attributed to the liquid phase at constant sintering temperature. A slight
increase of Curie temperature, Tc and saturation magnetization Ms of Ni0.60Zn0.40-
xRExFe2O4 [RE = La, Y and Eu] series with increasing RE in were observed. The
change of Ms with the increase of RE substitution has been explained on the Neel’s
Collinear two sublattices magnetization model and Yafet-Kittels’ non-collinear
magnetization model. Initial permeability decreases with the increasing of RE ions.
Quality factor signifies the merit of the material from the application point of view.
The variation of the quality factor with frequency shows a similar trend for all three
samples. From these three series of samples are seen that the real part of initial
permeability almost constant up to 4MHz. The AC resistivity decreases with
increasing temperature. The dielectric constant is found to decrease continuously with
increasing frequency and remains almost constant at higher frequency range. The
variation of electrical resistivity and dielectric properties is explained of Fe2+/Fe3+
ionic concentration with affect RE ions as well as the electronic hoping frequency
between Fe2+ and Fe3+ ions.
Description:
This thesis is submitted to the Department of Physics, Khulna University of Engineering & Technology in partial fulfillment of the requirements for the degree of Master of Philosophy in Physics, January-2017.
Cataloged from PDF Version of Thesis.
Includes bibliographical references (pages 99-106).