dielectric behavior topic 9. reading assignment askeland and phule, the science and engineering of...
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Dielectric behavior
Topic 9
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Reading assignment• Askeland and Phule, The Science
and Engineering of Materials, 4th Ed., Sec. 18-8, 18-9 and 18-10.
• Shackelford, Materials Science for Engineering, Sec. 15.4.
• Chung, Composite Materials, Ch. 7.
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Insulators and dielectric properties
• Materials used to insulate an electric field from its surroundings are required in a large number of electrical and electronic applications.
• Electrical insulators obviously must have a very low conductivity, or high resistivity, to prevent the flow of current.
• Porcelain, alumina, cordierite, mica, and some glasses and plastics are used as insulators.
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Dielectric strength• Maximum electric field that an insulator
can withstand before it loses its insulating behavior
• Lower for ceramics than polymers
• Dielectric breakdown - avalanche breakdown or carrier multiplication
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Polarization in dielectrics• Capacitor – An electronic device, constructed from
alternating layers of a dielectric and a conductor, that is capable of storing a charge. These can be single layer or multi-layer devices.
• Permittivity - The ability of a material to polarize and store a charge within it.
• Linear dielectrics - Materials in which the dielectric polarization is linearly related to the electric field; the dielectric constant is not dependent on the electric field.
• Dielectric strength - The maximum electric field that can be maintained between two conductor plates without causing a breakdown.
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Polarization mechanisms in materials:
(a) electronic,
(b) atomic or ionic,
(c) high-frequency dipolar or orientation (present in ferroelectrics),
(d) low-frequency dipolar (present in linear dielectrics and glasses),
(e) interfacial-space charge at electrodes, and
(f ) interfacial-space charge at heterogeneities such as grain boundaries.
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©2003 Brooks/Cole, a division of Thomson Learning, Inc. Thomson Learning™ is a trademark used herein under license.A charge can be stored at the conductor plates in a vacuum (a). However, when a dielectric is placed between the plates (b), the dielectric polarizes and additional charge is stored.
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, A
Q = Do
, d
V =
Do = o
o = 8.85 x 10-12 C/(V.m)
, d
A
d
A
V
QC = Slope oo
o
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, A
QD =D om
Dm = o =
, Cd
A
d
A
V
Q = C o
oom
P = Dm Do
= o o = ( 1) o
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E
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, 1 = Q
, P
1= o
(bound charge)d = ( 1) Qd
, PA
1)Q(
Ad
1)Qd( =
Volume
momentDipole
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mC
Q = V
Q = Dm A = A
x
A
x
A = C o
m
x
x
AA
= V
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Table 7.6 Values of the relative dielectric constant of various dielectric materials at 1 kHz (Data from Ceramic Source ’86, American Ceramic Society, Columbus, Ohio, 1985, and Design Handbook for DuPont Engineering Plastics).
Material _____
Al2O3 (99.5%) 9.8
BeO (99.5%) 6.7
Cordierite 4.1-5.3
Nylon-66 reinforced with glass fibers 3.7
Polyester 3.6
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= ,sinicosˆeˆ ti tt
Dm = ,)tsin(itcosD̂eD̂ mti
m
,eˆeD̂ titim
,sinicosˆ
D̂e
ˆD̂ mi-m
, ofpart Real
ofpart Imaginary tan
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, dt
dvC
dt
dQi c
= V sin t
, T
2f2
, cosCVdt
dvCi c t
cosC1/
Vt
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2sin
t
2
sincos2
cossin tt
, cos t
, 2
sinC1/
Vi c
t
, sinR
V
RiR t
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, 2
sinC1/
Vi c
t
, sinR
V
RiR t
, CR
1
CV
V/Rtan
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Energy stored = , di0
C
t
, dcossinCV0
2 ttt
, d2sin2
CV
0
2
tt
, 2cos4
CV0
2
t
, 12cosCV4
1 2
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Maximum energy stored = ½ CV2
This occurs when
cos 2ωt = -1
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Energy loss per cycle due to conduction through the resistor R
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Energy loss = dsinsinR
V /2
0
2
ttt
d2cos12
1
R
V 2
0
2
tt
2sin2
1
2
1
R
V2
0
2
tt
00022
1
R
V2
. R
V2
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The smaller is R, the greater is the energy loss.
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2/CV2
R/V
storedenergymaximum2
cycleperlostEnergy2
2
tan CR
1
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Frequency dependence of polarization mechanisms. On top is the change in the dielectric constant with increasing frequency, and the bottom curve represents the dielectric loss.
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Quartz – polarization only under stress
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©2003 Brooks/Cole, a division of Thomson Learning, Inc. Thomson Learning™ is a trademark used herein under license.
(a) The oxygen ions are at face centers, Ba+2 ions are at cube corners and Ti+4 is at cube center in cubic BaTi03.(b) In tetragonal BaTi03 ,the Ti+4 is off-center and the unit cell has a net polarization.
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Different polymorphs of BaTiO3 and accompanying changes in lattice constants and dielectric constants.
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Table 7.3 Contribution to dipole moment of a BaTiO3 unit cell by each
type of ion.
Ion Charge (C) Displacement (m)
Dipole moment (C.m)
Ba2+ (+2)(1.6 x 10-19) 0 0
Ti4+ (+4)(1.6 x 10-19) +0.10(10-10) 6.4 x 10-30
2O2- (side of cell) 2(-2)(1.6 x 10-19) -0.10(10-10) 6.4 x 10-30
O2- (top and bottom of cell)
(-2)(1.6 x 10-19) -0.13(10-10) 4.2 x 10-30
Total = 17 x 10-30
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3302
30
m103.984.03
C.m1017
P
= 0.27 C.m-2
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-Ec E
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(b) single crystal.
c) Polycrystalline BaTiO3 showing the influence of the electric field on polarization.
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The effect of temperature and grain size on the dielectric constant of barium titanate. Above the Curie temperature, the spontaneous polarization is lost due to a change in crystal structure and barium titanate is in the paraelectric state. The grain size dependence shows that similar to yield-strength dielectric constant is a microstructure sensitive property.
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Effect of grain size
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Ferroelectric domains in polycrystalline BaTiO3.
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E
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,t
tlogr
u
uu
1
2
1
12
Piezoelectric aging rate r
Depoling
u : parameter such as capacitancet: number of days after polarization
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Ferroelectric - A material that shows spontaneous and reversible dielectric polarization.
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Piezoelectric – A material that develops voltage upon the application of a stress and develops strain when an electric field is applied.
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©2003 Brooks/Cole, a division of Thomson Learning, Inc. Thomson Learning™ is a trademark used herein under license.The (a) direct and (b) converse piezoelectric effect. In the direct piezoelectric effect, applied stress causes a voltage to appear. In the converse effect (b), an applied voltage leads to development of strain.
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Direct piezoelectric effect
Reverse (converse) piezoelectric effect
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E
E
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P = d P = d
od
d: Piezoelectric coupling coefficient (piezoelectric charge coefficient)
Direct piezoelectric effect
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Table 7.1 The piezoelectric constant d (longitudinal) for selected materials
MaterialPiezoelectric constant d
(C/N = m/V)
Quartz 2.3 x 10-12
BaTiO3 100 x 10-12
PbZrTiO6 250 x 10-12
PbNb2O6 80 x 10-12
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1o
P
1o
d
V = ,
1o
d
V
P = Dm Do
= o o
= ( 1) o
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1o
d
V
1 o
d
g
V = g
g: piezoelectric voltage coefficient
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Reverse piezoelectric effect
S = d
S = d
P
S
P
S
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Reverse piezoelectric effect
1 o
S
1 o
-
S
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1 o
d
1 o
d
S = d
1 o
-
S
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= g = g
1 o
d
1 o
d
g
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= ES
= gES
Hooke’s law
= g
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gE
S
1
gEd
1
gdE
S = d
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energy electricalinput
energymechanicaloutput2k
energy mechanicalinput
energyelectricaloutput2k
Electromechanical coupling factor(electromechanical coupling coefficient) k
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Substitution of A and B sites in BaTiO3
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PZT: PbZrO3-PbTiO3 solid solution or lead zirconotitanate
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Table 7.4 Properties of commercial PZT ceramics
PropertyPZT-5H
(soft)PZT4(hard)
Permittivity ( at 1 kHz) 3400 1300
Dielectric loss (tan at 1 kHz) 0.02 0.004
Curie temperature (Tc, C) 193 328
Piezoelectric coefficients (10-12 m/V)
d33 593 289
d31 -274 -123
d15 741 496
Piezoelectric coupling factors
k33 0.752 0.70
k31 -0.388 -0.334
k15 0.675 0.71
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Table 7.2 Measured longitudinal piezoelectric coupling coefficient d, measured relative dielectric constant , calculated piezoelectric voltage coefficient g and calculated voltage change resulting from a stress change of 1 kPa for a specimen thickness of 1 cm in the direction of polarization.
Material d (10-13 m/V)* † g (10-4 m2/C)†
Voltage change (mV)†
Cement paste (plain)
0.659 0.031 35 2.2 2.2
Cement paste with steel fibers and PVA
208 16 2700 8.7 8.7
Cement paste with carbon fibers
3.62 0.40 49 8.5 8.5
PZT 136 1024 15 15
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Piezopolymer
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Bimorph (bi-strip)
Cantilever beam configuration for actuation
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Composites with piezoelectric/ferroelectric material sandwiched by metal faceplates fo enhancing the piezoelectric coupling coefficient
Moonie
Cymbal
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Pyroelectric - The ability of a material to spontaneously polarize and produce a voltage due to changes in temperature.
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,dT
d
dT
dPp o
p = pyroelectirc coefficientP = polarization
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Table 7.5 Pyroelectric coefficient (10-6 C/m2.K)
BaTiO3
20
PZT 380
PVDF 27
Cement paste 0.002
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o 1)-(
Px = V
d
d
d
d
d
d P
)1(
xx
1)-(
P =
V
oo
Voltage sensitivity
Compliance Piezoelectric coupling coefficient d
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Piezoelectric composite
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• When any material undergoes polarization (due to an applied electric field), its ions and electronic clouds are displaced, causing the development of a mechanical strain in the material. polarization.
• This phenomenon is known as the electrostriction.
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Examples of ceramic capacitors. (a)Single-layer ceramic capacitor (disk capacitors). (b) Multilayer ceramic capacitor (stacked ceramic layers).