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by Hamid Alemohammad
Opto-mechanical Fiber Optic Sensors
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Title page
Table of Contents
Copyright
List of Contributors
Biography
Preface
1. Opto-Mechanical Modeling of Fiber Bragg Grating Sensors
1.1. Fiber Bragg Gratings
1.2. Opto-Mechanical Properties of Optical Fibers
1.3. Fiber Bragg Gratings With Structurally and Thermally Induced Index Changes
1.4. Light Propagation in Optical Fibers With Induced Optical Anisotropy
1.5. Coupled-Mode Theory
1.6. Derivation of Coupled-Mode Theory for Fiber Bragg Gratings With Uniform Grating
1.7. Coupled-Mode Theory for Superstructure Fiber Bragg Gratings
Appendices
2. Superstructure Fiber Bragg Grating Sensors for Multiparameter Sensing
2.1. Superstructure Fiber Bragg Gratings With Periodic On-Fiber Films
2.2. Opto-Mechanical Modeling
2.3. Simulation Results
2.4. Geometrical Features of Fabricated Superstructure Fiber Bragg Gratings With On-Fiber Films
2.5. Measurement Test Rig
2.6. Optical Response Analysis
3. Flat-Cladding Fiber Bragg Grating Sensors for Large Strain Amplitude Fatigue Tests
3.1. Introduction
3.2. Experiments
3.3. Sensor Validation Results
3.4. Application in the Fatigue Test of a Friction Stir–Welded Aluminum Alloy
3.5. Application in Asymmetric Fatigue Deformation of a Magnesium Alloy
3.6. Conclusions
4. Fiber Bragg Grating Strain Sensor for Microstructure in Situ Strain Measurement and Real-Time Failure Detection
4.1. Introduction
4.2. Fiber Bragg Grating Basics and Sensor Fabrication
4.3. Comparison of Cantilever Strain Measured by a Fiber Bragg Grating Sensor and a Strain Gauge
4.4. Printed Circuit Board Assembly Test Sample Preparation for Bend Testing
4.5. Strain Gauge A and Fiber Bragg Grating Sensor Installation on Assembly Packages
4.6. Comparison of Ball Grid Array Substrate Strain Results by Fiber Bragg Grating Sensor Array and Finite Element Analysis Modeling
4.7. Four-Point Bending System and Test Setup
4.8. Dye-and-Pry Failure Visual Inspection
4.9. Test Results and Discussion
4.10. Conclusions
5. Distributed Brillouin Sensing Using Polymer Optical Fibers
5.1. Introduction
5.2. Characterization of Brillouin Scattering in Polymer Optical Fibers
5.3. Distributed Measurement
5.4. Polymer Optical Fiber Fuse
5.5. Conclusion
6. Femtosecond Laser-Inscribed Fiber Bragg Gratings for Sensing Applications
6.1. Introduction
6.2. The Fiber Bragg Grating
6.3. The Fiber Bragg Grating Sensor
6.4. Femtosecond Laser-Induced Bragg Gratings
6.5. Applications of Femtosecond Laser-Induced Fiber Bragg Gratings for Sensing
6.6. Conclusions
7. Innovative Fiber Bragg Grating Sensors for Highly Demanding Applications: Considerations, Concepts, and Designs
7.1. Introduction
7.2. Fiber Bragg Grating Sensor System
7.3. High-Demand Fiber Bragg Grating Sensor System Performance
7.4. Fiber Bragg Grating–Based Sensors for Dedicated Operational Conditions
7.5. Fiber Bragg Grating–Based Sensors for Special Physical Parameters
8. Fiber Optic Sensors in the Oil and Gas Industry: Current and Future Applications
8.1. Introduction
8.2. Breakdown of the Oil and Gas Industry
8.3. Thermal Monitoring
8.4. Pressure Monitoring in the Downhole Environment
8.5. Flow Monitoring
8.6. Seismic Monitoring
8.7. Acoustic Monitoring
8.8. Future Directions
9. Aerospace Applications of Optical Fiber Mechanical Sensors
9.1. Introduction and Background
9.2. Measurements for Flight Control
9.3. Overview
9.4. Concluding Remarks
10. Fiber Optical Sensors in Biomechanics
10.1. Introduction
10.2. Why Fiber Optical Sensors in Biomechanics?
10.3. Applications in Biomechanics of Rigid Bodies
10.4. Applications in Biomechanics of Deformable Bodies
10.5. Applications in Biomechanics of Fluids
10.6. Final Remarks
11. Fiber Optic Sensors for Biomedical Applications
11.1. Introduction
11.2. Biomedical Fiber Optic Sensor Systems
11.3. Optical Fiber Sensors for Diagnostics
11.4. Optical Fiber Sensors for Robotic Microsurgery
11.5. Smart Textiles and Wearable Sensors
Index
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