Yang, Cheng: Distributed piezoelectric transducers and their applications in structural health monitoringFlächige piezoelektrische Sensoren und ihre Anwendungen in Structural Health Monitoring. 2017
Inhalt
- Title
- Table of contents
- Table of Symbols
- Abstract
- Kurzfassung
- 1 Introduction
- 1.1 Review of Structural Health Monitoring
- 1.2 Methods for Structural Health Monitoring
- 1.3 Piezoelectric transducers in Structural Health Monitoring
- 1.4 Organization of the dissertation
- 2 Theoretical background
- 2.1 History of piezoelectricity
- 2.2 Polarization
- 2.3 Hysteresis
- 2.4 Piezoelectric constitutive equations
- 2.5 Piezoelectric materials
- 2.6 Spatially distributed transducers
- 3 Investigation on development and characterization of piezoelectric paint
- 3.1 Introduction
- 3.2 Review of the development of piezoelectric paint
- 3.3 Piezoelectric paint fabrication
- 3.4 Weight percentage, volume percentage and density
- 3.5 Investigation of the piezoelectric paint microstructure
- 3.6 Elastic properties
- 3.7 Piezoelectricity characterization
- 3.8 Piezoelectric paint refinement
- 3.9 Thermal property characterization
- 3.10 Conclusion
- 4 Application of piezoelectric paint as spatially distributed sensors
- 4.1 Application of piezoelectric paint as spatially distributed modal sensors
- 4.2 Applications of piezoelectric paint as integrated and distributed sensors in Structural Health Monitoring
- 5 Aluminum Nitride as distributed transducers in high temperature applications
- 5.1 Motivation
- 5.2 Background review
- 5.3 Surface acoustic wave equations
- 5.4 Modeling of SAW propagation on AlN/diamond/gamma-TiAl
- 5.5 Simulation results and discussion
- 5.6 Surface damage detection by SAW
- 5.7 Conclusion
- 6 Conclusion and outlook
- References