Post on 31-Dec-2015
description
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A nonlinear field theory of deformable dielectrics
Zhigang Suo
Harvard University
Work withX. Zhao, W. Greene, Wei Hong, J. Zhou
Talk 1 in Session 21-2-2, 10:00 am - 12:00 pm, Wednesday, 6 June 2007, McMat 2007, Austin, TexasSlides are available at http://imechanica.org/node/635
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Dielectric elastomer actuators•Electromechanical coupling•Large deformation, light weight, low cost…•Soft robots, artificial muscles…
Compliant Electrode
Dielectric Elastomer
L
A
Reference State
l
a Q
Q
Current State
Pelrine, Kornbluh, Pei, Joseph High-speed electrically actuated elastomers with strain greater than 100%. Science 287, 836 (2000).
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Electromechanical instability
l
Q
Q
Q
Zhao, X, Hong, W., Suo, Z., 2007. http://imechanica.org/node/1283.
Coexistent states: flat and wrinkled
Plante, Dubowsky, Int. J. Solids and Structures 43, 7727 (2006).
thick thin
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Trouble with electric force
Historical work•Toupin (1956)•Eringen (1963)•Tiersten (1971)……
Recent work•Dorfmann, Ogden (2005)•Landis, McMeeking (2005)•Suo, Zhao, Greene (2007)……
In a vacuum, force between charges can be measuredDefine electric field by E = F/Q
+Q +Q
+Q +Q
In a solid,force between charges is NOT an operational concept
iiE ,
ii ED
qD ii ,
ii qEF
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Maxwell stress in vacuum (1864?)
jijjijijjii EDEDEDqEF ,,,
ijijji EE ,,, ikkijjjij EEEEED ,0
,0, 2
jijkkiji EEEEF
,
00 2
ijkkijij EEEE 20
0
iiE , ii ED 0qD ii ,
Q
Q
20
2E
P
P
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Trouble with Maxwell stress in dielectrics
+ + + + + + + + +
- - - - - - - - - - - - - - - - - - - - - - - -
+ + + + + + + + +
+-
Maxwell stressElectrostriction2
33 2E
In solid, Maxwell stress has NO theoretical basis
Maxwell said that he didn’t make progress with dielectrics, but his qualms have not prevented people from using his name anyway…
•In dielectrics, electric force is not an operational concept.• varies with deformation in general.•Why E2 dependence?•How about the sign of the Maxwell stress?
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All troubles are goneif we focus on measurable quantities
Pground
Q
l
electrode
dielectric
Work done by the weight lPWork done by the battery Q
QlPU
Q
QlUQl
l
QlUQlP
,,,
,,
A system of elastic conductors and dielectricsis specified by a free-energy function QlU ,
A transducer QlU , is measurable
Suo, Zhao, Greene
JMPS, in press. http://imechanica.org/node/635
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Intensive quantities
L
A
Reference State
P
l
a Q
Q
Current State
Ll /
Intensive Quantities
APs /
LE /~
AQD /~
)/( lE
)/( aQD
Work done by the weight sALLsAlP
Work done by the battery DEALADLEQ~~~~
Free energy per unit volume DW~
,
QlPU DEsW~~
DWE
Ws~
/~
/
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Ideal dielectric elastomer
DWWDW 10
~,
Decouple elastic and dielectric energy
...27
1050
119
20
13
2
1 32
20 I
NI
NIW Arruda-Boyce elastomer:
: small-strain shear modulusN: number of rigid units between neighboring crosslinks
23
22
21 I
DA
Q
a
QD
~
21
Linear dielectric liquid 2
2
1
DDW
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Hysteresis and coexistent states
Zhao, X, Hong, W., Suo, Z., 2007. http://imechanica.org/node/1283.
l
Q
Q
LE /~
AQD /~
)/( lE
)/( aQD
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Equilibrium & Stability
2P 1P
22L
33L
11L
Q
2P 1P
22L
33L
11L
Q
QLPLPDWLLLG 22211121321
~,,
Free energy of the system
Elastomer weights battery
DD
WD
D
WW
DD
WWW
DED
Ws
Ws
W
LLL
G
~~
~~
~~
2
1
2
1
2
1
~~~
2
2
2
1
1
2
2121
2
2
2
2222
2
2212
1
2
222
111321
0det H
Equilibrium state becomes unstable when the Hessian ceases to be positive-definite
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W
s2
2 W
sD
WE ~~
,
,
Equilibrium state
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Pre-stresses enhance actuation
2P 1P
22L
33L
11L
Q
2P 1P
22L
33L
11L
Q
Experiment: Pelrine, Kornbluh, Pei, JosephScience 287, 836 (2000).
Theory: Zhao, Suohttp://imechanica.org/node/1456
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Inhomogeneous field
P
Q
l
A field of weights K
iiK X
txtF
,
,X
X
dAtdVt
xbdV
Xs iii
ii
K
iiK ~~~
2
2
K
K X
ttE
,
,~ XX
dAdVqdVDX KK
~~~A field of batteries
Material laws
iK
iK F
Ws
DF
DF~
,~,
K
KD
WE ~
~,~
,~
DF
DF
Suo, Zhao, Greene
JMPS, in press. http://imechanica.org/node/635
•Linear PDEs•Nonlinear material laws
KKiKiK EDFsW~~
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Finite element method
Thick State
Transition
Thin State
Thick State
Transition
Thin State
Zhou, Hong, Zhao, Zhang, Suo
http://imechanica.org/node/1447
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Summary
• A nonlinear field theory. No Maxwell stress. No electric body force. No polarization vector.
• Electromechanical instability.
• Hysteresis and coexistent states.
• Finite element method.
These slides are available at http://imechanica.org/node/635.iMechanica get together. Wednesday, 5.45pm-9:00pm, Room 2.120. Beer, snacks…