智能结构装置及结构电子系统设计
目 录内容简介
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-ELECTRO/MAGNETO MATERIALS
1.8.1 Photostrictive Materials
1.8.2 Photoferroelectric Materials
1.8.3 Magneto-optical Materials
1.9 SUMMARY
REFERENCES
CHAPTER 2 PIEZOELECTRIC MATERIALS AND DEVICES
2.1 PIEZOELECTRIC CONTINUA
2.1.1 Distributed Sensing and Vibration Controls
2.1.2 Remarks
2.2 MULTIPURPOSE SENSORS
2.2.1 A Multipurpose Tactile/Acceleration Sensor System
2.2.2 Piezoelectricity in a Thick Polymeric PVDF Flat
2.2.3 Tactile Response of Polymeric PVDF
2.2.4 Design of Polymeric PVDF Tactile Sensors
2.2.5 Modeling of the Polymeric Piezoelectric PVDF Sensor
2.2.6 Damping Estimation
2.2.7 Experimentation
2.2.8 Results and Disscusions
2.2.9 Summary
2.3 HIGH-PRECISION MICRO-ACTUATION
2.3.1 A Piezoelectric Bimorph Micro-displacement Actuator
2.3.2 Design Concept
2.3.3 Piezoelectric Bimorph Theory
2.3.4 Finite Element Development
2.3.5 Laboratory Experiments
2.3.6 Results and Discussions
2.3.7 Summary
2.4 DUAL-PURPOSE MICRO-ISOLATOR/EXCITER
2.4.1 Theoretical Formulation
2.4.2 Piezoelectric Exciter
2.4.3 Active Vibration Isolation
2.5 EXPERIMENTAL VALIDATION-PROTOTYPE MODEL
2.5.1 Piezoelectric Exciter
2.5.2 Results and Discussions
2.5.3 Summary
REFERENCES
APPENDIX: EXPERIMENTAL AND THEORETICAL DATA
CHAPTER 3 SHAPE MEMORY MATERIALS AND DEVICES
3.1 BACKGROUND AND FUNDAMENTAL CONCEPTS
3.1.1 Characteristics of Shape Memory Materials
3.1.2 Crystal Transformation
3.1.3 Shape Memory Effect
3.1.4 Detailed Electro-thermo-elastic Behavior
3.2 DEVICES USING SHAPE MEMORY ALLOYS
3.2.1 Automotive Applications
3.2.2 Aerospace and Aviation
3.2.3 Mechanical Devices
3.2.4 Medical Applications
3.2.5 Bioengineering
3.2.6 Common Household
3.2.7 Robotics
3.2.8 Electronics
3.2.9 Consumer Products
3.2.10 Developing Application Guidelines
3.2.11 Limitations of SMA's
3.3 NEW APPLICATIONS
3.3.1 Shape Memory Alloys in "Fun" Applications
3.3.2 Future Applications
3.3.3 Summary
REFERENCES
CHAPTER 4 ELECTROSTRICTWE MATERIALS AND DEVICES
4.1 ELECTROSTRICTION OF MATERIAL
4.2 COMPARISON BETWEEN ELECTROSTRICS AND PIEZOELECTRICS
4.3 MANUFACTURING TECHNIQUE
4.4 APPLICATIONS OF ELECTROSTRICTIVE MATERIALS
4.4.1Actuators
……
CHAPTER 5 MAGNETOSTRICTIVE MATERIALS AND DEVICES
CHAPTER 6 ER AND MR FLUIDS WITH DEVICES
CHAPTER 7 POLYMERIC GELS AND DEVICES
CHAPTER 8 PYROELECTRIC MATERIALS AND DEVICES
CHAPTER 9 PRECISION SENSOR SYSTEMS
APPENDICES
APX.1 DEFINITIONS
APX.2 LINEAR PIEZOELECTRICITY RELATIONS
APX.3 ELASTIC, PIEZOELECTRIC AND DIELECTRIC RELATIONS
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-ELECTRO/MAGNETO MATERIALS
1.8.1 Photostrictive Materials
1.8.2 Photoferroelectric Materials
1.8.3 Magneto-optical Materials
1.9 SUMMARY
REFERENCES
CHAPTER 2 PIEZOELECTRIC MATERIALS AND DEVICES
2.1 PIEZOELECTRIC CONTINUA
2.1.1 Distributed Sensing and Vibration Controls
2.1.2 Remarks
2.2 MULTIPURPOSE SENSORS
2.2.1 A Multipurpose Tactile/Acceleration Sensor System
2.2.2 Piezoelectricity in a Thick Polymeric PVDF Flat
2.2.3 Tactile Response of Polymeric PVDF
2.2.4 Design of Polymeric PVDF Tactile Sensors
2.2.5 Modeling of the Polymeric Piezoelectric PVDF Sensor
2.2.6 Damping Estimation
2.2.7 Experimentation
2.2.8 Results and Disscusions
2.2.9 Summary
2.3 HIGH-PRECISION MICRO-ACTUATION
2.3.1 A Piezoelectric Bimorph Micro-displacement Actuator
2.3.2 Design Concept
2.3.3 Piezoelectric Bimorph Theory
2.3.4 Finite Element Development
2.3.5 Laboratory Experiments
2.3.6 Results and Discussions
2.3.7 Summary
2.4 DUAL-PURPOSE MICRO-ISOLATOR/EXCITER
2.4.1 Theoretical Formulation
2.4.2 Piezoelectric Exciter
2.4.3 Active Vibration Isolation
2.5 EXPERIMENTAL VALIDATION-PROTOTYPE MODEL
2.5.1 Piezoelectric Exciter
2.5.2 Results and Discussions
2.5.3 Summary
REFERENCES
APPENDIX: EXPERIMENTAL AND THEORETICAL DATA
CHAPTER 3 SHAPE MEMORY MATERIALS AND DEVICES
3.1 BACKGROUND AND FUNDAMENTAL CONCEPTS
3.1.1 Characteristics of Shape Memory Materials
3.1.2 Crystal Transformation
3.1.3 Shape Memory Effect
3.1.4 Detailed Electro-thermo-elastic Behavior
3.2 DEVICES USING SHAPE MEMORY ALLOYS
3.2.1 Automotive Applications
3.2.2 Aerospace and Aviation
3.2.3 Mechanical Devices
3.2.4 Medical Applications
3.2.5 Bioengineering
3.2.6 Common Household
3.2.7 Robotics
3.2.8 Electronics
3.2.9 Consumer Products
3.2.10 Developing Application Guidelines
3.2.11 Limitations of SMA's
3.3 NEW APPLICATIONS
3.3.1 Shape Memory Alloys in "Fun" Applications
3.3.2 Future Applications
3.3.3 Summary
REFERENCES
CHAPTER 4 ELECTROSTRICTWE MATERIALS AND DEVICES
4.1 ELECTROSTRICTION OF MATERIAL
4.2 COMPARISON BETWEEN ELECTROSTRICS AND PIEZOELECTRICS
4.3 MANUFACTURING TECHNIQUE
4.4 APPLICATIONS OF ELECTROSTRICTIVE MATERIALS
4.4.1Actuators
……
CHAPTER 5 MAGNETOSTRICTIVE MATERIALS AND DEVICES
CHAPTER 6 ER AND MR FLUIDS WITH DEVICES
CHAPTER 7 POLYMERIC GELS AND DEVICES
CHAPTER 8 PYROELECTRIC MATERIALS AND DEVICES
CHAPTER 9 PRECISION SENSOR SYSTEMS
APPENDICES
APX.1 DEFINITIONS
APX.2 LINEAR PIEZOELECTRICITY RELATIONS
APX.3 ELASTIC, PIEZOELECTRIC AND DIELECTRIC RELATIONS
目 录内容简介
《智能结构、装置及结构电子系统设计》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、装置及结构电子系统设计》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。
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