智能结构、装置及结构电子系统设计(英文)
作者:邹鸿生 编
出版时间:2012年
内容简介
邹鸿生、岳洪浩主编的《智能结构装置设计及结构电子系统》系统地介绍了智能结构、装置和结构电子系统设计的基础理论和技术领域的应用特点和设计方法。《智能结构装置设计及结构电子系统》可作为高年级本科生及研究生的教材或学习参考书,也可作为相关领域研究人员的参考书。
目录
CHAPTER 1 INTRODUCTION TO SMART MATERIALS
1.1 PIEZOELECTRIC MATERIALS
1.2 SHAPE MEMORY MATERIALS
1.3 ELECTROSTRICTIVE MATERIALS
1.4 MAGNETOSTRICTIVE MATERIALS
1.5 ELECTRO-AND MAGNETO-RHEOLOGICAL FLUIDS
1.6 POLYELECTROLYTE GELS
1.7 PYROELECTRIC MATERIALS
1.8 OPTO-ELECTROMAGNETO MATERIALS
1.8.1 Photostrictive Materials
1.8.2 PhotoferroelectricMaterials
1.8.3 Magneto-opticalMaterials
1.9 SUMMARY
REFERENCES
CHAPTER 2 PIEZOELECTRIC MATERIALS AND DEVICES
2.1 PIEZOELECTRIC CONTINUA
2.1.1 Distributed Se ing andVibration Controls
2.1.2 Remarks
2.2 MULTIPURPOSE SENSORS
2.2.1 A MultipurposeTactileAcceleration Se or System
2.2.2 Piezoelectricity in a ThickPolymeric PVDF Flat
2.2.3 Tactile Respo e of PolymericPVDF
2.2.4 Design of Polymeric PVDFTactile Se o
2.2.5 Modeling of the PolymericPiezoelectric PVDF Se or
2.2.6 Damping Estimation
2.2.7 Experimentation
2.2.8 Results and Disscusio
2.2.9 Summary
2.3 HIGH-PRECISION MICRO-ACTUATION
2.3.1 A Piezoelectric BimorphMicro-displacement Actuator
2.3.2 Design Concept
2.3.3 Piezoelectric BimorphTheory
2.3.4 Finite ElementDevelopment
2.3.5 Laboratory Experiments
2.3.6 Results and Discussio
2.3.7 Summary
2.4 DUAL-PURPOSE MICRO-ISOLATOREXCITER
2.4.1 Theoretical Formulation
2.4.2 Piezoelectric Exciter
2.4.3 Active VibrationIsolation
2.5 EXPERIMENTAL VALIDATION--PROTOTYPEMODEL
2.5.1 Piezoelectric Exciter
2.5.2 Results and Discussio
2.5.3 Summary
REFERENCES
APPENDIX: EXPERIMENTAL AND THEORETICAL DATA
CHAPTER 3 SHAPE MEMORY MATERIALS AND DEVICES
3.1 BACKGROUND AND FUNDAMENTAL CONCEFFS
3.1.1 Characteristics of ShapeMemory Materials
3.1.2 Crystal Tra formation
3.1.3 Shape Memory Effect
3.1.4 DetailedElectro-thermo-elastic Behavior
3.2 DEVICES USING SHAPE MEMORY ALLOYS
3.2.1 AutomotiveApplicatio
3.2.2 Aerospace andAviation
3.2.3 Mechanical Devices
3.2.4 Medical Applicatio
3.2.5 Bioengineering
3.2.6 Common Household
3.2.7 Robotics
3.2.8 Electronics
3.2.9 Co umer Products
3.2.10 Developing ApplicationGuidelines
3.2.11 Limitatio ofSMA's
3.3 NEW APPLICATIONS
3.3.1 Shape Memory Alloys in\Fun\ Applicatio
3.3.2 Future Applieatio
3.3.3 Summary
REFERENCES
CHAPTER 4 ELECTROSTRICTIVE MATERIALS AND DEVICES
4.1 ELECTROSTR1CTION OF MATERIAL
4.2 COMPARISON BETWEEN ELECTROSTRICS ANDPIEZOELECTRICS
4.3 MANUFACTURING TECHNIQUE
4.4 APPLICATIONS OF ELECTROSTRICTIVEMATERIALS
4.4.1 Actuato
4.4.2 Ultrasonic Applicatio
4.4.3 Capacito
4.4.4 Discussio
4.4.5 New Horizo
4.5 SUMMARY
REFERENCES
CHAPTER 5 MAGNETOSTRICTIVE MATERIALS AND DEVICES
5.1 MAGNETOSTRICTIVE PROPERTIES
5.2 MAGNETOSTRICTIVE DEVICES11l
5.2.1 Magnetostrictive Core LineHydrophone
5.2.2 Rare Earth Flexte ional Traducer
5.2.3 Magnetostrictive Alloys forHydraulic Valve Control
5.2.4 Magnetostrictive LinearDisplacement Tra ducer
5.2.5 Spherical MembraneOmnidirectional Loudspeaker
5.2.6 Self-biased ModularMagnetostrictive Driver and Tra ducer
5.2.7 Magnetostrictive Roller DriveMotor
5.2.8 Low Frequency Sound Traducer
5.2.9 Giant Magnetostrictive Alloy(GMA)
5.2.10 Temposonics-IIMagnetostrictive Se or
5.2.11 Magnetostrictive Clamp
5.2.12 Magnetostrictive Tra ducerfor Logging Tool
5.3 APPLICATIONS
5.3.1 Actuato
5.3.2 Magnetostrictive LinearDisplacement Tra ducer
5.3.3 High Pressure Pump
5.3.4 Magnetostrictive Shaker
5.3.5 Antivibration Systems
5.3.6 Linear Moto
5.3.7 Underwater CommunicationEquipment
5.3.8 Liquid Level Se or
5.3.9 Rotational Vibration Seor
5.3.10 Laves Phase Se or
5.3.11 Human Spinal Monitoring Seor
5.3.12 Human Body Se or
5.4 SUMMARY
REFERENCES
CHAPTER 6 ER AND MR FLUIDS WITH DEVICES
6.1 PROPERTIES OF ER FLUID
6.2 APPLICATIONS OF ER FLUID
6.2.1 Shock Absorbe
6.2.2 Car Suspe ion Systems
6.2.3 Engine Mounts
6.2.4 Clutches
6.2.5 Monotube Dampe
6.2.6 Artificial Limbs
6.2.7 Possible Future Uses
6.2.8 Summary
6.3 PROPERTIES OF MAGNETORHEOLOGICAL FLUID
6.4 APPLICATIONS OF MR FLUID
6.4.1 Shock Absorbe
6.4.2 Dampe and EngineMounts
6.4.3 Brake System
6.4.4 Clutches and Couplings
6.4.5 Valves and CompressionSeals
6.4.6 Moto and PneumohydraulicDrives
6.4.7 Heat Tra fer Control
6.5 DISCUSSIONS AND SUMMARY
REFERENCES
CHAPTER 7 POLYMERIC GELS AND DEVICES
7.1 CHARACTERISTICS OF POLYMERIC GELS
7.2 APPLICATIONS
7.2.1 Fiber Bundles for ArtificialMuscles
7.2.2 Dimethylformamide andDimethylsulphoxide Polymer Films
7.2.3 Interpolyelectrolyte Complexes(IPEC)
7.2.4 Ionic Polymeric Drug DeliverySystem
7.2.5 Artificial Cornea
7.2.6 Synthetic ScleralReinforcement Materials for Surgical Use
7.2.7 Biomedical Polyme
7.2.8 Molecular Biose or
7.2.9 Polymeric Membrane
7.2.10 Polymer Blends
7.2.11 Synthetic PolymericGels
7.2.12 Osmosis PolymericMembrane
7.2.13 ETFE (PolyethyleneTetrafluoroethylene) Microporous Polymeric Membrane
7.2.14 Integrated Force Arrays(IFA)
7.2.15 Polypyrrole,Poly-N-methylpyrrole, Ply-5-carboxyindole and Polyaniline
7.2.16 Material : Polyaniline Film,Polyaniline-polyarbonate (PAn-PC) Film
7.2.17 Poly(vinylalcohol)-poly(sodium acrylate) Composite Gel (PVA-PAA Gel)
7.3 DISCUSSIONS AND SUMMARY
REFERENCES
CHAPTER 8 PYROELECTRIC MATERIALS AND DEVICES
8.1 PYROELECTRICITY AND FUNDMENTAL THEORY
8.1.1 Pyroelectrieity
8.1.2 Theory
8.2 OPERATIONAL ASPECTS OF PYROELECTRICS
8.2.1 Materials
8.2.2 Infrared Ear Thermometer
8.2.3 Optical Wavegnides
8.2.4 Mieroehannel Anemometer
8.2.5 Determination of DirectionalEmissivity of Opaque Materials (300 - 600K)
8.2.6 Security
8.3 PYROELECTRIC APPLICATIONS
8.3.1 Se o
8.3.2 Detecto
8.4 FUTURE APPLICATIONS OF PYROEI,ECTRICMATERIALS
8.4.1 Biomedical
8.4.2 Military
8.4.3 Manufacturing
8.5 SUMMARY
REFERENCES
CHAPTER 9 PRECISION SENSOR SYSTEMS
9.1 DISPLACEMENT TRANSDUCERS
9.1.1 Potentiometric and Strain GagePosition Tra duce
9.1.2 Strain Gage Displacement Traduce
9.1.3 Linear Variable DifferentialTra former
9.1.4 Inductive Proximity ProbeDisplacement Measurement Systems
9.2 VELOCITY TRANSDUCERS AND SYSTEMS
9.2.1 Linear Velocity Tra duce
9.2.2 Rotary Velocity Traducer
9.3 ACCELERATION TRANSDUCERS AND SYSTEMS
9.3.1 Strain Gage Aceeleromete
9.3.2 PiezoelectricAcceleromete
9.3.3 Charge Amplifier SignalConditioning
9.3.4 Voltage Amplifier SignalConditioning
9.4 FORCE AND TORQUE TRANSDUCERS
9.4.1 Strain Gage Load Cells
9.4.2 Column Member Load Cell
9.4.3 Cantilever Beam LoadCell
9.4.4 Ring Member Strain Gage LoadCell
9.5 TORQUE MEASUREMENT TRANSDUCERS
9.6 PRESSURE MEASUREMENT SYSTEMS
9.6.1 Strain Gage Tra duce
9.6.2 Piezoelectric Pressure Traduce
9.6.3 Effect of Tra mission Lines onMeasurement of Pressure
9.6.4 Short Tra mission Lines
9.6.5 Long Tra mission Lines
APPENDICES
APX. 1 DEFINITIONS
APX. 2 LINEAR PIEZOELECTRICITY RELATIONS
APX. 3 ELASTIC, PIEZOELECTRIC AND DIELECTRICRELATIONS
