B-H Curve and Hysteresis .pdf
rantuboruah
88 views
16 slides
Apr 06, 2023
Slide 1 of 16
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
About This Presentation
For Engeneering and Bsc Physics students
Slide Content
Presentation on : B-H curve
By : DhruvM Patel(16BEECV084)
(160410111045)
By : DhruvM Patel(16BEECV084)
(160410111045)
The plot of Magnetization M or Magnetic
field B as a function of Magnetic Field
Intensity H (i.e. M-H or B-H graph) gives
the Hysteresis curve. The permeability μ of
a ferromagnetic material can vary through
the entire range of possible values from
zero to infinity and may be either positive
or negetive.
field B as a function of Magnetic Field
Intensity H (i.e. M-H or B-H graph) gives
the Hysteresis curve. The permeability μ of
a ferromagnetic material can vary through
the entire range of possible values from
zero to infinity and may be either positive
or negetive.
Hysteresis, in general, is defined as the lag in
a variable property of a system with respect
to the effect producing it as this effect varies.
In ferromagnetic materials the magnetic flux
density B lags behind the changing external
Magnetizing field Intensity H. Hysteresis
curve is drawn by plotting the graph of B-field
vsH (or M-H) by taking the material through a
complete cycle of H values as follows
a variable property of a system with respect
to the effect producing it as this effect varies.
In ferromagnetic materials the magnetic flux
density B lags behind the changing external
Magnetizing field Intensity H. Hysteresis
curve is drawn by plotting the graph of B-field
vsH (or M-H) by taking the material through a
complete cycle of H values as follows
Fig. Typical B-H graph (Hysteresis curve) of a ferromagnetic material
First, consider an unmagnetizedsample of
ferromagnetic material. The magnetic field
intensity H is initially zero at O. H is
increased monotonically, then magnetic
induction B increases nonlinearly along the
curve (OACDE) called as the
magnetization curve. At point E almost all
of the magnetic domains are aligned
parallel with the magnetic field.
ferromagnetic material. The magnetic field
intensity H is initially zero at O. H is
increased monotonically, then magnetic
induction B increases nonlinearly along the
curve (OACDE) called as the
magnetization curve. At point E almost all
of the magnetic domains are aligned
parallel with the magnetic field.
An additional increase in H does not
produce any increase in B. E is called as
the point of magnetic saturation of the
material. Values of permeability derived
from the formula along the curve are
always positive and show a wide range of
values. The maximum permeability as
large as occurs at the ``knee'' (point D) of
the curve
produce any increase in B. E is called as
the point of magnetic saturation of the
material. Values of permeability derived
from the formula along the curve are
always positive and show a wide range of
values. The maximum permeability as
large as occurs at the ``knee'' (point D) of
the curve
Next H is decreased till it reduces to zero.
B reduces from its saturation value at "E"
to that at point "F". Some of the magnetic
domains lose their alignment but some
maintain alignment i.e. Some magnetic flux
density B is still retained in the material
B reduces from its saturation value at "E"
to that at point "F". Some of the magnetic
domains lose their alignment but some
maintain alignment i.e. Some magnetic flux
density B is still retained in the material
The curve for decreasing values of H (i.e.
Demagnetization curve EF) is offset by an
amount FO from that for increasing values
of H (i.e. Magnetization curve OE). The
amount of offset “FO” is called the
retentivityor the remanenceor the level of
residual magnetism.
Demagnetization curve EF) is offset by an
amount FO from that for increasing values
of H (i.e. Magnetization curve OE). The
amount of offset “FO” is called the
retentivityor the remanenceor the level of
residual magnetism.
As H is increased to large values in the
negative direction, B reaches saturation
but in the opposite direction at point "I ".
Almost all of the magnetic domains are
aligned in opposite direction to that at point
E of positive saturation. H is varied from its
maximum negative value to zero. Then B
reaches point "J." This point shows
residual magnetism equal to that achieved
for positive values of H (OF =OJ)
negative direction, B reaches saturation
but in the opposite direction at point "I ".
Almost all of the magnetic domains are
aligned in opposite direction to that at point
E of positive saturation. H is varied from its
maximum negative value to zero. Then B
reaches point "J." This point shows
residual magnetism equal to that achieved
for positive values of H (OF =OJ)
H is increased back from zero to maximum in
the positive direction. Then B reaches zero
value at “K” i.e. it does not pass through the
origin of the graph. OK indicates the amount
of field H required to nullify theresidual
magnetism OJ retained in the opposite
direction. H is increased from point “K” further
in the positive direction, then again the
saturation of B is reached at point “E” and the
loop is completed.
the positive direction. Then B reaches zero
value at “K” i.e. it does not pass through the
origin of the graph. OK indicates the amount
of field H required to nullify theresidual
magnetism OJ retained in the opposite
direction. H is increased from point “K” further
in the positive direction, then again the
saturation of B is reached at point “E” and the
loop is completed.
1.Retentivity -A measure of the residual
flux density corresponding to the saturation
of a magnetic material. It is a material's
ability to retain a certain amount of residual
magnetic field when the magnetizing force
is removed after achieving saturation (The
value of B at point E on the hysteresis
curve).
flux density corresponding to the saturation
of a magnetic material. It is a material's
ability to retain a certain amount of residual
magnetic field when the magnetizing force
is removed after achieving saturation (The
value of B at point E on the hysteresis
curve).
2. Residual Magnetism or Residual Flux -
The magnetic flux density B that remains
in a material when the magnetizing field
intensity H is zero. Residual magnetism
and retentivityare same only when the
material is magnetized to the saturation
point. However, it may be lower than the
retentivityvalue otherwise.
The magnetic flux density B that remains
in a material when the magnetizing field
intensity H is zero. Residual magnetism
and retentivityare same only when the
material is magnetized to the saturation
point. However, it may be lower than the
retentivityvalue otherwise.
3. Coercive ForcCoercivityIt is the
amount of reverse magnetizing field
intensity which must e or be applied to a
magnetic material to make the magnetic
flux density of ferromagnetic material
return to zero after it has reached
saturation. (The value of H at point G on
the hysteresis curve).
amount of reverse magnetizing field
intensity which must e or be applied to a
magnetic material to make the magnetic
flux density of ferromagnetic material
return to zero after it has reached
saturation. (The value of H at point G on
the hysteresis curve).
4. Reluctance -It is the opposition that a
ferromagnetic material shows to the
establishment of a magnetic field.
Reluctance is analogous to the resistance
in an electrical circuit
ferromagnetic material shows to the
establishment of a magnetic field.
Reluctance is analogous to the resistance
in an electrical circuit
5.Permeability, μ-Permeability is the
property of a material that measures the
ease with which a magnetic flux is
established in it. μ is negative in the II and
IV quadrants and positive in the I and III
quadrants of the B-H graph (i.e. the
Hysteresis curve).
property of a material that measures the
ease with which a magnetic flux is
established in it. μ is negative in the II and
IV quadrants and positive in the I and III
quadrants of the B-H graph (i.e. the
Hysteresis curve).
Tags
Categories
GeneralDownload
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 88
- Slides 16
- Age 971 days
Related Slideshows
22
Pray For The Peace Of Jerusalem and You Will Prosper
RodolfoMoralesMarcuc
32 views
26
Don_t_Waste_Your_Life_God.....powerpoint
chalobrido8
33 views
31
VILLASUR_FACTORS_TO_CONSIDER_IN_PLATING_SALAD_10-13.pdf
JaiJai148317
31 views
14
Fertility awareness methods for women in the society
Isaiah47
30 views
35
Chapter 5 Arithmetic Functions Computer Organisation and Architecture
RitikSharma297999
27 views
5
syakira bhasa inggris (1) (1).pptx.......
ourcommunity56
29 views