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More About This Title Encyclopedia of Structural Health Monitoring 5V
English
An international board of expert authors and editors provides readers with the theories and applications crucial to aerospace; road, rail and sea transport; heavy machinery; and all types of civil infrastructure, including specialist subjects such as land fills or disaster (i.e. earthquake) management. Moreover, each topic, ranging from the background of physical and mathematical principles to real practical engineering applications, is reported on in-depth and has a very practical orientation underlined by a variety of case studies.
With its thorough content, high calibre contributors and comprehensive coverage, the Encyclopedia of Structural health Monitoring will be crucial to all those involved in the field of Structural Health Monitoring. For ease-of-use it will be available online and in print.
English
Christian Boller
Department of Mechanical Engineering, University of Sheffield,
Sheffield, UK
Fu-Kuo Chang
Department of Aeronautics and Astronautics, School of
Engineering, Stanford University, Stanford, CA, USA
Yozo Fujino
Department of Civil Engineering, University of Tokyo, Tokyo, Japan
SECTION EDITORS
Introduction and Definitions
Christian Boller, Fu-Kuo Chang, and Yozo Fujino
Physical Monitoring Principles
Douglas E Adams
School of Mechanical Engineering Purdue University, Indiana, USA
Signal Processing
Wieslaw J Staszewski and Keith Worden
Department of Mechanical Engineering, University of Sheffield,
Sheffield, UK
Simulation
S. Gopalakrishnan
Department of Aerospace Engineering Indian Institute of Science, Bangalore, India
Sensors
Victor Giurgiutiu
Department of Mechanical Engineering University of South Carolina, Columbia, South Carolina, USA
Systems and System Design
Daniel Balageas
Department of Solid and Damage Mechanics ONERA, Châtillon, France
Principles of SHM-based Structural Monitoring, Design, and Maintenance
Michael Bannister
CRC-ACS, Fishermans Bend, Victoria, Australia
Aerospace Applications
Stephen C. Galea
DSTO – Melbourne, Fishermans Bend, Victoria, Australia
Civil Engineering Applications
Helmut Wenzel
VCE Holding GmbH, Vienna, Austria
Emerging Applications
Daniel J. Inman
Department of Mechanical Engineering, Virginia Tech, Blacksburg, Virginia, USA
English
Loads Monitoring
Damage Monitoring
Structural Health Monitoring
Monitoring for Operation
Physical Monitoring Principles(D. Adams)
Strain
Modal Analysis
Lamb and Rayleigh Waves
Acoustic Emission
Ultrasonics
Acousto-Ultrasonics
Vibro-Acoustics
Impedance Method
Phased Array
Electromagnetic
Thermal
Vacuum
Signal Processing (W. Staszewski)
Time Domain
Frequency Domain
Wavelet Analysis
Genetic Algorithms
Artificial Neural Networks
Wireless Data Communication
Impacts in Composites
Cracks in Homogeneous Materials
Cracks/Delaminations in Composite Materials
Image Processing
Identification and location of sensors
Sensor validation
Data-base management
Simulation (S. Gopalakrishnan)
Constitutive Modelling of Smart Materials
Piezoceramic Materials
Magentostrictive Materials
Piezo Fibre Composites
Finite Elements
Modelling of Smart Sensors and Actuators
Damage Models for metallic and Composite Materials
Spectral Elements
Modelling of Smart Sensors and Actuators
Damage Models for metallic and Composite Materials
Damage Detection Algorithms and Techniques
Detection Using Modal Analysis
Detection using Smart Sensors/Actuators
Wave Propagation based detection Methods
Modelling of Lamb Waves/Raleigh Waves
Probabilistic Approaches
Modelling of Smart Sensors and Actuators
Modelling of defects in metals and composites
Uncertainty analysis
Development of Fuzzy logic rules for damage detection/location
Sensor redundancy approaches
Sensors (V. Girugiutiu)
Electrical Strain Gauges
Optical Fibres
Filters
Mach-Zehnder
Arrayed Waveguide Grating
Piezoelectric
PZT
PVDF
Electromagnetic
Capacitive sensors
Thermal
Micro-Electro-Mechanical Systems (MEMS)
Nanomaterials
Laser Scanners
Load Cells
Video
RFID
Systems and System Design (D. Balageas)
Concepts and Approaches
Sensor Network Configuration
Sensor network paradigms
Optimum sensor/actuator placement
Mote platform
Web-based SHM protocol system
Multi level Decision Fusion
Wireless monitoring systems
Autonomous sensing
RF energy delivery systems
Energy harvesting
Semi-integrated systems (NDECS)
Examples of systems
Systems based on classical sensors
Resistive strain gauges
Accelerometers
Optical Fibre Measurement Systems
Acoustic Emission Systems
Acousto-Ultrasonics Systems
Electric and Electromagnetic Systems
Hybrid Systems ( FOS plus piezo)
Principles of SHM-Based Structural Monitoring, Design and Maintenance (M. Bannister)
Loads and Environment Monitoring
Service Loads
External events
Degradation Monitoring
Structural Design utilising SHM
Structural Health Management
Condition-based Maintenance
Predictive Maintenance
Usage Management
Risk Monitoring
Standards and Authorities
Aerospace Applications (S. Galea)
Metallic Structures
Composite Structures
Engines
Helicopters
Missiles
Civil Engineering Applications (H. Wenzel)
Character of civil engineering SHM
The influence of environmental factors
Ambient vibration monitoring
Bridges
Buildings
Tunnels
Dams
Soil structure interaction
Other Applications (D. Inman)
Marine
Offshore
Shipping Container Monitoring
Rail Track Monitoring
Mining
Wind Energy
Heavy Machinery
Electrical Wiring
Multi-wire Steel Strands
River Surveillance
Processing Plants
Automotive
Standardisation
Piezoelectrics
Optical fibre sensing
