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Highway Bridge Management [Hardback]

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  • Formāts: Hardback, 296 pages, height x width x depth: 234x156x24 mm, weight: 572 g
  • Izdošanas datums: 12-Dec-2022
  • Izdevniecība: Thomas Telford Ltd
  • ISBN-10: 072776554X
  • ISBN-13: 9780727765543
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  • Hardback
  • Cena: 106,73 €
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Highway Bridge ManagementPalielināt
  • Formāts: Hardback, 296 pages, height x width x depth: 234x156x24 mm, weight: 572 g
  • Izdošanas datums: 12-Dec-2022
  • Izdevniecība: Thomas Telford Ltd
  • ISBN-10: 072776554X
  • ISBN-13: 9780727765543
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9780727765543.html
Keywords:

Highway Bridge Management provides the bridge maintenance engineer and bridge manager with key information necessary to effectively manage highway bridges and other structures. The appropriate maintenance of highway bridge structures is vital to the safe and economic transport of goods and people. The bridge maintenance engineer has to have a skill set of asset management, inspection and assessment techniques, value engineering and prioritisation methods, repair techniques, legal and safety matters and stakeholder engagement. This book contains all the necessary information required to manage a highway bridge effectively and provides information beyond that found in the UK Design Manual for Roads and Bridges.

Featuring case studies charting successes and failures, this is a necessary purchase for all maintenance engineers, supervising engineers, bridge managers, client organisations and graduate engineers tasked with performing bridge maintenance tasks, ensuring that all your bridge structures will be fit for purpose for future generations.



Highway Bridge Management provides the bridge maintenance engineer and bridge manager with key information necessary to effectively manage highway bridges and other structures.

Contents Foreword ix
Preface xi
About the editors xiii
About the contributors xv
01 Introduction
1(8)
Graham Cole
Richard Fish
References
6(3)
02 Carbon and sustainability
9(10)
Richard Fish
2.1 Introduction
9(1)
2.2 Context
9(1)
2.3 United Nations Sustainable Development Goals
10(2)
2.4 Sustainability
12(1)
2.5 Carbon
13(1)
2.6 Case study: Rochester Bridges refurbishment
14(1)
2.7 Climate change impacts on bridge management
15(1)
2.8 Case study: Koror-Babeltaup Bridge, Palau
15(1)
2.9 Conclusion
16(1)
References
16(3)
03 Management of bridges
19(8)
Richard Fish
3.1 Context
19(1)
3.2 Legal framework
20(1)
3.3 Asset management framework and strategy
21(1)
3.4 Risk management
21(1)
3.5 People
22(1)
3.6 Knowledge management
23(2)
3.7 Knowledge sharing
25(1)
References
25(2)
04 Life-cycle management
27(12)
Keith Harwood
4.1 Asset management
27(1)
4.2 Structures asset management information
27(3)
4.3 Maintaining bridge performance
30(3)
4.4 Risk-based approach to bridge management
33(3)
4.5 Value management of the structures workbank
36(1)
References
36(3)
05 Operational management
39(20)
Graham Cole
5.1 Project management and procurement
39(2)
5.2 Project planning and delivery
41(11)
5.3 Abnormal load management
52(3)
References
55(4)
06 Bridge inspection
59(14)
Mike Laing
6.1 Purpose of bridge inspection
59(3)
6.2 Inspection regime
62(1)
6.3 Planning
62(5)
6.4 The bridge inspector
67(1)
6.5 Environmental considerations
67(1)
6.6 Reporting
68(1)
6.7 Developing technologies
69(1)
References
70(3)
07 Assessment of load capacity of existing highway bridges
73(20)
Dr. Jon Shave
Dr. John Bennetts
7.1 Introduction
73(1)
7.2 Standards and documents for highway bridge assessment
74(1)
7.3 Overview of the process
74(1)
7.4 Inspection for assessment
75(2)
7.5 Technical approval
77(2)
7.6 Qualitative and quantitative assessment of limit states
79(1)
7.7 Assessment by calculation using the partial factor method
80(2)
7.8 Assessing the effects of actions
82(2)
7.9 Assessing structural resistance
84(2)
7.10 Improving the results of assessments
86(2)
7.11 Conclusions of the assessment
88(1)
References
89(4)
08 Testing and monitoring
93(20)
David Cousins
Matthew Anderson
8.1 Investigation purposes
93(1)
8.2 Process for tests and investigations
94(3)
8.3 Technologies available for investigations
97(9)
8.4 Case studies
106(3)
8.5 Future changes
109(1)
References
110(3)
09 Post-tensioned bridges: special inspections
113(20)
Dr. Donald Pearson-Kirk
9.1 Development of post-tensioned bridges
113(1)
9.2 Performance of post-tensioned bridges
114(4)
9.3 Management of post-tensioned bridges: the need for guidance
118(1)
9.4 Post-tensioned special inspections (PTSIs)
119(1)
9.5 Case study: PTSI based on 1993 standard and advice note
120(2)
9.6 Development and trials of BD 54/XX (2012-2014)
122(1)
9.7 BD 54/15 - Management of posMensioned concrete bridges
123(1)
9.8 Case study: PTSI based on BD 54/15
124(2)
9.9 CS 465 - Management of post-tensioned concrete bridges
126(2)
9.10 Case study: PTSI based on CS 465
128(2)
9.11 Summary
130(1)
Acknowledgements
131(1)
References
131(2)
10 Structural health monitoring
133(18)
Matthew Anderson
David Cousins
10.1 SHM objectives
133(1)
10.2 Planning and using SHM
134(2)
10.3 Technologies available for SHM
136(8)
10.4 Example SHM applications
144(6)
References
150(1)
11 Scour
151(16)
Kevin Dentith
11.1 What is scour?
151(1)
11.2 Types of scour
151(2)
11.3 Scour management
153(8)
11.4 Scour prevention
161(3)
11.5 Monitoring of scour
164(1)
References
165(1)
Further Reading
165(2)
12 Masonry arch bridges
167(18)
Dr. Adrienn Tomor
Graham Cole
12.1 The inspection process
168(1)
12.2 Typical masonry defects
169(2)
12.3 Testing and monitoring techniques
171(3)
12.4 Assessment of load capacity
174(1)
12.5 Repair techniques
175(2)
12.6 Strengthening techniques
177(3)
12.7 Water management
180(1)
12.8 Viability of new masonry arch bridges
180(1)
References
180(5)
13 Concrete highway bridges
185(26)
Peter Brown
13.1 Introduction
185(1)
13.2 Types of concrete bridge
186(3)
13.3 Material properties and design
189(3)
13.4 Concrete problems and deterioration processes
192(8)
13.5 Repairs and strengthening
200(6)
13.6 Inspection, testing and assessment
206(2)
References
208(3)
14 Metal bridges
211(28)
Nigel Ricketts
14.1 Introduction
211(1)
14.2 Common metal highway bridge types
211(7)
14.3 Materials
218(4)
14.4 Corrosion
222(6)
14.5 Protective coatings
228(1)
14.6 Assessment
229(3)
14.7 Repairs and strengthening
232(6)
References
238(1)
15 Maintenance of specialist highway structures
239(16)
Trish Johnson
Richard Fish
15.1 Introduction
239(1)
15.2 Suspension bridges
240(7)
15.3 Cable-stayed bridges
247(1)
15.4 Cable oscillation and vibration
247(1)
15.5 Accidental damage to hangers and cables
248(1)
15.6 Opening bridges
248(1)
15.7 Travelling gantries
249(1)
15.8 Footbridges
249(1)
15.9 Earth-retaining structures
249(1)
15.10 Other materials
250(1)
15.11 Conclusion
251(1)
References
252(3)
16 Maintenance of highway bridge elements
255(14)
Kevin Dentith
16.1 Introduction
255(1)
16.2 Parapets
255(4)
16.3 Expansion joints
259(3)
16.4 Bridge bearings
262(2)
16.5 Waterproofing
264(1)
16.6 Half-joints
265(3)
References
268(1)
Index 269