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Physical properties of ferrite nanocomposite doped with transition metal ions

1.

2.

Outlines
1- Introduction
2-Aim of the Present Work
3-Experimental Techniques
a- Sample preparation
b- Sample Characterization
4- Result and discussion
5- Conclusion
2

3.

1.Introduction
1.1Classification of Magnetic Materials

4.

Diamagnetic
Atoms have no magnetic moment. Susceptibility is small and
negative, -10-6to-10-5
Para magnetic
Atoms have randomly oriented magnetic moment. Susceptibility is
small and positive, 10-5to10-3
Ferromagnetic
Atoms have parallel aligned magnetic moments, magnetic
susceptibilities as high as106 .
Antiferromagnetic
The spin alignment is in antiparallel manner So net magnetic
moment is zero, Susceptibility is small& positive, +10-5 to+10-3
Ferri magnetic
Atoms have mixed parallel and antiparallel Aligned magnetic
moments ,So they possess net magnetic moment
Susceptibility is very large and positive.

5.

1.1.1.magnetic moment in the absence of the magnetic field

6.

1.1.2.magnetic moment Under the effect of magnetic field

7.

1.2.What are Ferrites?
A ferrite is a ceramic material made by mixing and firing
large proportions iron(III) oxide (Fe2O3, rust) blended with
small
proportions
of
one
or
more
additional metallic elements.
They are both electrically non-conductive, meaning that
they are insulators, and ferrimagnetic, meaning they can
easily be magnetized or attracted to a magnet.

8.

1.3.Crystal structure of ferrites
Types
Molar ratio
Representation
Spinel
MFe2O4
MeO is a transition
metal oxide
Garnet
Me3Fe5O12
Me2O3 is a rare earth
metal oxide
Ortho
AFeO3
A is rare earth elements
like HO, Dy, Er, Y, Yb
Hexaferrite
MeFe12O19
MeO is a divalent
metal oxidefrom group
IIA
e.g. BaO, CaO, SrO

9.

1.3.1.Crystal structure of spinel ferrite

10.

1.4. Types of spinel ferrite
Normal Inverse Mixed
spinel
spinel
spinel

11.

1.5.hysteresis curve

12.

1.6.Historical review
Abdullah Dar et al. (2009) studied Cd2+ doped Zinc ferrite (ZnCdxFe2-xO4; x = 0.0, 0.05, 0.1, 0.2,
0.3 and 0.5) prepared by the egg-white technique, and sintering at two different temperatures,
800°C and 1100°C. XRD measurements showed an increase in lattice parameter from 8.41A to
8.44°A for 800°C and from 8.42 to 8.45°A for 1100°C. The dielectric constant (
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