Health Monitoring of Bridges
(Sprache: Englisch)
Health Monitoring of Bridges prepares the bridge engineering community for the exciting new technological developments happening in the industry, offering the benefit of much research carried out in the aerospace and other industrial sectors and discussing...
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Health Monitoring of Bridges prepares the bridge engineering community for the exciting new technological developments happening in the industry, offering the benefit of much research carried out in the aerospace and other industrial sectors and discussing the latest methodologies available for the management of bridge stock.
Klappentext zu „Health Monitoring of Bridges “
Health Monitoring of Bridges prepares the bridge engineering community for the exciting new technological developments happening in the industry, offering the benefit of much research carried out in the aerospace and other industrial sectors and discussing the latest methodologies available for the management of bridge stock. Health Monitoring of Bridges: * Includes chapters on the hardware used in health monitoring, methodologies, applications of these methodologies (materials, methods, systems and functions), decision support systems, damage detection systems and the rating of bridges and methods of risk assessment. * Covers both passive and active monitoring approaches. * Offers directly applicable methods and as well as prolific examples, applications and references. * Is authored by a world leader in the development of health monitoring systems. * Includes free software that can be downloaded from http://www.samco.org/ and provides the raw data of benchmark projects and the key results achieved. This book provides a comprehensive guide to all aspects of the structural health monitoring of bridges for engineers involved in all stages from concept design to maintenance. It will also appeal to researchers and academics within the civil engineering and structural health monitoring communities.
Health monitoring of bridges is a major concern in infrastructure management and is essential to manage the huge stock of bridges worldwide. If carefully monitored, bridges will not only last longer but will have far lower maintenance demands and will be able to be modified to accommodate changes in traffic or function much more quickly and in a far less intrusive manner than current technology allows. Written by a world leader in the development of health monitoring systems, Health Monitoring of Bridges offers the first comprehensive look at the subject, introducing the reader to the background and basics of health monitoring as well as its supporting technology. Not only does the book present the methodologies behind health monitoring, which range from system identification to damage detection and compensation of environmental influences, but also the hardware used in health monitoring, including permanent installations (active systems) and mobile equipment (passive systems). Also discussed are the rating of bridges and methods of risk assessment. Including research carried out in the aerospace and many other industrial sectors as well as numerous tables, illustrations, photographs, case studies, and examples, this book is destined to become an essential reference in the bridge engineering community.
Inhaltsverzeichnis zu „Health Monitoring of Bridges “
Preface1. Introduction and Motivation
1.1 Health Monitoring
1.2 Client Requirements and Motivation
2. Bridge Management and Health Monitoring
2.1 Bridge Management Philosophy
2.2 Structural Health Monitoring
2.3 Examples of Bridge Management Systems
2.4 Protection of Bridges against manmade and natural Hazards
Bibliography
3. Bridge Rating and Risk Assessment
3.1 Inspection Rating
3.2 BRIMOS Rating
3.3 Probabilistic Approach in SHM
3.4 Risks from Natural Hazards
3.5 Vehicle and Ship Impact
3.6 Man Made Hazards
Bibliography
4. Damage Detection and Assessment
4.1 Weak Point Detection and Fatigue Assessment
4.2 Condition compensation in frequency analyses
4.3 Model Updating and System Identification
4.4 Performance Assessment (Damping, Time Histories)
4.5 Discussion of the SHM Axioms
4.6 Safety Assessment
Bibliography
5. Decision Support Systems
5.1 Decision Support Systems for Structural Health Monitoring
5.2 Architecture
5.3 The operation modes
5.4 Monitoring System and Databases
5.5 Current Status of the System
5.6 Data Treatment
5.7 Data Storage
Bibliography
6. Lifetime Assessment of Bridges
6.1 Lifetime Assessment Procedure
6.2 Hot Spot Detection
6.3 Statistical Pattern Recognition
6.4 Application Example: Steel Bridge
6.5 Ongoing R&D Projects
Bibliography
7. Bridge SHM Methodologies
7.1 Ambient Vibration Monitoring
7.2 Deflection and Displacement Monitoring
7.3 Fatigue Assessment by Monitoring
7.4 Corrosion, Carbonization, Chlorite Content
7.5 Load Transfers
7.6 Material Properties
Bibliography
8. The Business Case for SHM of Bridges
8.1 Drivers for SHM of Bridges
8.2 The Costs of SHM of Bridges
8.3 The Future of SHM Business
8.4 Typical SHM Service Catalogue
9. Applications
9.1 MelkbridgeM6 - Austria
9.2 PORR Bridge - Austria
9.3 Warth Bridge - Austria
9.4 Putlitz Bridge - Germany
9.5
... mehr
Westend Bridge - Germany
9.6 Zittau Viaduct - Germany
9.7 Commodore Barry Bridge - USA
9.8 Bridge BE 109/21- Switzerland
9.9 RAMA IX Bridge - Thailand
9.10 Titulcia Steel Bridge - Madrid / Spain
9.11 Szechenyi Bridge - Hungary
9.12 ESK551 Bridge - Bad Bevensen / Germany
9.13 The New Årsta Railway Bridge - Sweden
9.14 The New Svinesund Bridge - Sweden
9.15 Bridge Z24 - Switzerland
9.16 Roberval Bridge - France
9.17 Saint-Jean Bridge - Bordeaux, France
9.18 Øresund Bridge - Denmark / Sweden
9.19 Ting Kau Bridge - Hong Kong, China
9.20 Skovdiget Bridge Columns - Denmark
9.21 Skovdiget Bridge Superstructure - Denmark
9.22 Bolshoj Moskvoretsky Bridge
9.23 Versoix Bridge - Switzerland
9.24 Tsing Ma Bridge - Hong Kong (PRC)
9.25 A14 Huntingdon Railway Viaduct
9.26 Highway Bridge BW91, Germany
9.27 Herrenbrücke Bridge Lübeck - Germany
9.28 Pasir Panjang Semi Expressway - Singapore
9.29 Pioneer Bridge - Singapore
9.30 Tuas Second Link - Singapore
9.31 I40-Bridge, New Mexico, USA
9.32 Käallösund Bridge - Sweden
9.33 Europabr?ucke - Austria
9.34 St. Marx Bridge - Vienna
9.35 Taichung Bridge - Taiwan
Bibliography
10.Feedback from Monitoring to Design
10.1 Realistic Loads
10.2 Environmental Conditions
10.3 Conservative Design
10.4 Designed in Monitoring
11.Guideline and Recommendations for SHM
11.1 Introduction
11.2 Objectives and outline of the guideline
11.3 Analysis of Action
11.4 Diagnostic of structures
11.5 Damage identification
11.6 Qualification of test personnel
11.7 Sensor Classification, Application and Experiences
11.8 Traffic Load Identification on Bridges
11.9 Condition Monitoring of Heritage Buildings
11.10 Identification of Local Damages and Their Effect on Structures
11.11Damage Identification of a Steel Bridge by Dynamic Parameters
Bibliography
12.Structural Dynamics for SHM of Bridges
12.1 Glossary of Terms Frequently Employed
12.2 Mathematical Formulations in Dynamics
12.3 Wind Induced Vibration of Bridges
Bibliography
Abbreviation Index
Person Index
Index
9.6 Zittau Viaduct - Germany
9.7 Commodore Barry Bridge - USA
9.8 Bridge BE 109/21- Switzerland
9.9 RAMA IX Bridge - Thailand
9.10 Titulcia Steel Bridge - Madrid / Spain
9.11 Szechenyi Bridge - Hungary
9.12 ESK551 Bridge - Bad Bevensen / Germany
9.13 The New Årsta Railway Bridge - Sweden
9.14 The New Svinesund Bridge - Sweden
9.15 Bridge Z24 - Switzerland
9.16 Roberval Bridge - France
9.17 Saint-Jean Bridge - Bordeaux, France
9.18 Øresund Bridge - Denmark / Sweden
9.19 Ting Kau Bridge - Hong Kong, China
9.20 Skovdiget Bridge Columns - Denmark
9.21 Skovdiget Bridge Superstructure - Denmark
9.22 Bolshoj Moskvoretsky Bridge
9.23 Versoix Bridge - Switzerland
9.24 Tsing Ma Bridge - Hong Kong (PRC)
9.25 A14 Huntingdon Railway Viaduct
9.26 Highway Bridge BW91, Germany
9.27 Herrenbrücke Bridge Lübeck - Germany
9.28 Pasir Panjang Semi Expressway - Singapore
9.29 Pioneer Bridge - Singapore
9.30 Tuas Second Link - Singapore
9.31 I40-Bridge, New Mexico, USA
9.32 Käallösund Bridge - Sweden
9.33 Europabr?ucke - Austria
9.34 St. Marx Bridge - Vienna
9.35 Taichung Bridge - Taiwan
Bibliography
10.Feedback from Monitoring to Design
10.1 Realistic Loads
10.2 Environmental Conditions
10.3 Conservative Design
10.4 Designed in Monitoring
11.Guideline and Recommendations for SHM
11.1 Introduction
11.2 Objectives and outline of the guideline
11.3 Analysis of Action
11.4 Diagnostic of structures
11.5 Damage identification
11.6 Qualification of test personnel
11.7 Sensor Classification, Application and Experiences
11.8 Traffic Load Identification on Bridges
11.9 Condition Monitoring of Heritage Buildings
11.10 Identification of Local Damages and Their Effect on Structures
11.11Damage Identification of a Steel Bridge by Dynamic Parameters
Bibliography
12.Structural Dynamics for SHM of Bridges
12.1 Glossary of Terms Frequently Employed
12.2 Mathematical Formulations in Dynamics
12.3 Wind Induced Vibration of Bridges
Bibliography
Abbreviation Index
Person Index
Index
... weniger
Autoren-Porträt von Helmut Wenzel
Helmut Wenzel, VCE Holding GmbH, PresidentHermut Wenzel has been intensively involved in the development of health monitoring systems since they began over 10 years ago. He has coordinated a major number of research projects in the field, which have been rated outstanding by the European Commission.? Currently he is the coordinator of the European Thematic Network on Structural Assessment Monitoring and Control, a project financed by the European Commission with over 3,5 million Euro funding. He has submitted over 120 papers in relevant conferences. He has been appointed as advisor to the European Commission on the 7th framework program with regard to research items in this field and he is currently elaborating the research agenda covering all these topics. He is a founding member of the International Society for Structural Health Monitoring and Intelligent Infrastructure (ISHMII), chairman of several working commissions on the subject and organiser of highly reputed structural health monitoring events.
Bibliographische Angaben
- Autor: Helmut Wenzel
- 2009, 1. Auflage, 352 Seiten, Masse: 17,7 x 26,9 cm, Gebunden, Englisch
- Verlag: Wiley & Sons
- ISBN-10: 0470031735
- ISBN-13: 9780470031735
- Erscheinungsdatum: 26.01.2009
Sprache:
Englisch
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