module 1: overview of smart materialsmodule 1: overview...
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Module 1: Overview of Smart MaterialsModule 1: Overview of Smart Materials
Bishakh Bhattacharya & Nachiketa Tiwari
Department of Mechanical EngineeringDepartment of Mechanical Engineering
Indian Institute of Technology, Kanpur
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Lecture #2: Introduction to Piezoelectric MaterialsHistory of PiezoelectrictyPiezoelectric MaterialsPiezoelectric MaterialsHow to prepare a
Pi i A t t ?Piezoceramic Actuator?Constitutive RelationshipCo st tut e e at o s pPiezoceramic Polymers &
CompositesCompositesBimorphs & Piezostacksp
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History of PiezoelectricityHistory of Piezoelectricity• Piezoelectricity i e Electricity from• Piezoelectricity i.e. Electricity from
Pressure was discovered by Pierre and CJacque Curie in 1880
• Contemporary: Contact Electricity – StaticContemporary: Contact Electricity Static Electricity generated from FrictionP l t i it El t i it t d f• Pyroelectricity: Electricity generated from crystals while heating
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Who’s who in Piezoelectricity?Who s who in Piezoelectricity?
Pierre Curie (1859-1906),Nobel Prize in Physics, 1903
Direct Piezoelectric Effect
Gabriel Lippmann (1845-1921),Nobel Prize in Physics, 1908
Reverse Piezoelectric Effect
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Piezoelectricity – Time LinePiezoelectricity Time Line• The effect observed by Pierre and Jacque Curie
is called as Direct Piezoelectric Effect (Hankelis called as Direct Piezoelectric Effect (Hankel 1881)Th di t ff t f d i Zi Bl d• The direct effect was found in Zinc Blende, Boracite, Tourmaline, Quartz, Cane Sugar and R h ll S ltRochelle Salt
• The reverse effect was theoretically predicted by Lippman (1881) and experimentally confirmed by Voight in 1894
• First application – Langvein (1917) in Sonar Transducer (composite made of steel plate & ( p pquartz) – later Ceramic Phonograph, Ceramic Electret Microphone
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Piezoelectricity in Perovskites(1949-60)
Perovskite: A Ternary (3 Component structure)Perovskite: A Ternary (3 Component structure)
Example: BaTiO3 a common piezoelectric material
Tetragonal Symmetry with Dipole moment below C i TCurie Temperature
Similar material: PZT family LiNb family PbNb family YMn familySimilar material: PZT family, LiNb family, PbNb family, YMn family, (NH4)Cd family (1970--)
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Polarization of Piezoelectric Material
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How to prepare a PiezoceramicActuator?
St t ith fi d f t t l• Start with fine powders of component metal oxides (PZT or Barium Titanate family) e.g.. for PZT you need PbO ZrO and TiO powdersPZT you need PbO, ZrO2 and TiO2 powders
• Mix them in fixed proportionsU i bi d• Use an organic binder
• Form into specific shapes• Heat for a specific time and specified
temperature 650-800oC• Cool – apply electrode (sputtering)• Polarize the sensor/actuator using a DC electric
field
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4 steps for Powder Processingp g
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Constitutive Equation of Piezoelectricity
XEdXD
E
X Direct Effect
Converse
X-stress x-strain D-electric displacement/fluxdEXSx
E
Converse Effect
X stress, x strain, D electric displacement/flux density, S-compliance, E-Electric field intensity
permittivity d piezoelectric constant-permittivity, d-piezoelectric constant
Superscripts denote the measurement of itti it t t t t d li tpermittivity at constant stress and compliance at
constant electric field intensity
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Response of a Piezo-fibrep
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Electromechanical Coupling CoefficientElectromechanical Coupling Coefficient
• Due to nonlinearity the equations represented in Variational form:p
EdXSEXdD
E
x
EdXSx E
• Electromechanical coupling Coefficient:22
211222 / WWWk
W12 – Piezoelectric Energy Density W1W12 Piezoelectric Energy Density, W1Mechanical and W2 Electrical energy density
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Commercial Piezoelectric Material Property SetCommercial Piezoelectric Material Property Set
Prp unit BaTiO3 PZT-A PZT-B Pb Nb2O6 LiNbO3 Pb Ti O3
Mg/m3 5 7 7 9 7 7 5 9 4 6 7 1 Mg/m 5.7 7.9 7.7 5.9 4.6 7.1
k31 .21 .33 .39 .04 .02 .05k31
k33 .49 .68 .72 .38 .17 .35
d31 pCN-1 79 119 234 11 .85 7.4
S m2/N 8.6 12.2 14.5 29 5.8 11
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A few observationsA few observations
• PZT family has highest piezoelectric couplingp g
• Curie Point PZT family 220-315oC, same for Li family 600 1200oCfor Li family 600-1200oC
• Instead of polycrystalline Piezoceramics a single cut PMN could give k33 = 0.92 and d33 = 2070 pC/Ngive k33 0.92 and d33 2070 pC/N
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Piezoelectric Polymery
• PVF2 (Poly Vinylidene Fluoride) a semi-crystalline polymer consist of long-chain y p y gmolecules with the repeat unit of CF2CH2
• Form I PVDF (all trans) shows all chain• Form I PVDF (all trans) shows all chain oriented parallel to the axis of the unit cell and the dipoles pointing in the same direction
• d31 4.2-19 pC/N (for PZT ~ 234)d31 4.2 19 pC/N (for PZT 234)• k31 3-14.7% • E – 1.6 – 3.8 GPa
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Piezoelectric CompositePiezoelectric Composite
• Composite made of a polymer and PZT• Polymer phase – lower density, permittivity and y p y p y
increase elastic compliance• Smaller PZT particles (5-10 m) in PolyurethaneSmaller PZT particles (5 10 m) in Polyurethane
(PU) matrix• Larger 120m particles in a silicone rubber• Larger 120m particles in a silicone rubber
matrixSkinner et al: Smaller particles generate series• Skinner et al: Smaller particles generate series connectivity, while larger parallel
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Piezoelectric CompositesPiezoelectric Composites• For series connection, even very low volume
f ti f l (1%) d ti ll d ‘d’fraction of polymer (1%) drastically reduces ‘d’ however ‘g’ remains unaffected
• For parallel connection ‘d’ remains unchanged, ‘g’ increases
• Replamineform process to enhance interconnectivity
I i ti f C lInspiration from Coral structure:
Narrow pore-size pdistribution, complete pore interconnectivity
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Applications: BimorphApplications: Bimorph
D31 Actuator
D31 Sensor
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PiezostackPiezostack
D33 Actuator
D33 Sensor33 Se so
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Operating PointOperating Point
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END OF LECTURE 2