ICE MANUAL OF BRIDGE ENGINEERING
G. Parke and N. Hewson
The fully
revised, restructured and updated second edition of the ICE Manual of Bridge
Engineering has been written and edited by a team of leading experts and
presents valuable contributions from across the field within a single resource.
The second edition comprehensively addresses key topic within bridge
engineering, from history and aesthetics to design, construction and maintenance
issues.
This
edition includes:
Practical
‘how to’ approach
Significant new content added to build on bestselling first edition
Contributions from specialist authors with real world
best-practice advice
ICE
Manual of Bridge Engineering, second edition is the authoritative point of
reference for practising civil and structural engineers in consulting firms and
government agencies, bridge contractors, research institutes, universities and
colleges – in short, all practitioners involved in any aspect of the analysis,
design, construction, repair, maintenance, and refurbishment of bridges.
The ICE manuals series will offer civil engineers the quickest route to the information they need, ultimately providing core knowledge for the profession within a single highly referenced resource. ICE manuals will be available both in print and online and will deliver a comprehensive, authoritative and accessible package for all those working in civil engineering.
The ICE manuals series will offer civil engineers the quickest route to the information they need, ultimately providing core knowledge for the profession within a single highly referenced resource. ICE manuals will be available both in print and online and will deliver a comprehensive, authoritative and accessible package for all those working in civil engineering.
Preface
The history and aesthetic development of bridges
The early history of bridge
Eighteenth-century bridge building
The past 200 years: bridge development in the nineteenth and twentieth centuriesAesthetic design in bridges
Loads and load distribution
Introduction
Brief history of loading specifications
Current live load specifications
Secondary load
Other loads
Long bridges
Temperature
Earthquakes
Snow and ice
Water
Construction loads
Load combinations
Use of influence lines
Load distribution
References
Further reading
Structural analysis
Bridge dynamics
Introduction
Principles of structural dynamic
Wind induced vibration
Earthquake-induced vibration
Human- and vehicle-induced vibration
Collision
References
Further reading
Seismic response and design
Introduction
Modes of failure in previous earthquakes
Conceptual design issues
Brief review of seismic design codes
Closure
References
Substructures
Introduction
Types of abutment
Abutment design calculations
Construction of abutments
Bridge columns and piers
References
Design of reinforced concrete bridges
Introduction
Solid slab bridges
Voided slab bridges
Beam and slab bridges
Longer span structures
Design calculation
Conclusions
References
Design of prestressed concrete bridges
Introduction
Principle of prestressing
Prestressing systems
Materials
Prestress design
Design of details
Bridge construction and design
References
Further reading
Appendix I. Definitions
Appendix II. Symbols and notation used
Design of steel bridges
Introduction
Truss bridges
Plate and box girder bridges
Connections
Fatigue
Bibliography
Composite construction
Introduction
Future trends
Materials
Basic concepts
Structural forms
Precast concrete composites
Steel–concrete composite beams
Construction methods
Steel–concrete composite box girders
Steel–concrete composite columns
Prestressing of steel–concrete composite sections
Fatigue
Reference
Design of arch bridges
Introduction
Types of arch bridge
Typical structures
Analysis
Design
Masonry arch construction
Assessment of masonry arch bridges
Alternative methods to the modified MEXE method
The influence of masonry materials
Analysis of masonry arch bridges
Specification
Defects and rehabilitation
References
Further reading
Aluminium in bridges
Introduction
Why aluminium?
Alloys and product forms
Design and details
Design standards
Fabrication
Fatigue
Fire safety
Historic and recent bridges
Bridge decks and furniture
Corrosion behaviour
Coatings and finishes
Sustainability
Future trends
References
Further reading
Cable stayed bridges
Introduction
Stay cable arrangement
Stay oscillations
Pylons
Deck
Preliminary design
References
Further reading
Suspension bridges
Introduction
Cables as structural elements
Analysis of cables
Analysis of suspension bridges
Structural arrangement and design
Suspended deck structure
Cable supports and attachments
Towers
Anchorages
Aerodynamics
Construction
References
Movable bridges
Introduction
Types of movable bridges
Structural forms and mechanical–structural interaction
Span drive machinery
Stabilising machinery
Prime mover and controls
Significant movable bridges
Movable bridge design
Construction support
Construction inspection
Periodic inspection of movable bridge machinery
Future trends
Conclusion
Acknowledgements
Further reading
Footbridges
Introduction
Brief/general Context and setting out
Footbridge types
Bridge details
Decks and walkway surfaces
Materials and finishes
Construction
Aesthetics
Towards a critical method of design
Ten bridges
Future cons iderations
References
Further reading
British Standards and European norms
Advanced fibre polymer composite materials and their properties for bridge engineering
Introduction
Reinforcement mechanism of fibre-reinforced polymer composites
Advanced polymer composites
Adhesives
References
Advanced fibre polymer composite structural systems used in bridge engineering
Introduction
New bridge structures
FRP bridge decks
Steel-free bridge deck
Bridge enclosures and fairings
The rehabilitation of the civil infrastructure
Internal reinforcement to concrete members
Elastomeric bridge bearings
Intelligent structures
Appendix
References
Bearings
Design
Installation
Inspection and maintenance
Replacement
Illustrations of practice
References
Further reading
Bridge accessories
Introduction
Parapets
Drainage
Waterproofing
References
Further reading
Protection
Introduction
Water management
Materials selection and design
Coatings systems
Active protection of metals from corrosion
Protection from physical processes
Summary
References
Bridge management
Introduction
Project and network level bridge management
Project-level bridge management
Network-level bridge management
Other techniques used in the management of bridges
References Deterioration, investigation, monitoring and assessment
Main causes of degradation
Evaluation and testing methods
Residual strength evaluation procedures
Conclusion
References
Inspection and assessment of bridges
Maintenance inspection
Acceptance inspection
Health and safety for inspection
Access for inspection
Good practice for inspection
Inspection of different types of structure
Introduction to assessment
Levels of assessment
Preferred methods of analysis for assessment
Common problems in carrying out assessments
Seeking additional strength from assessments
Realistic models
Global models
Mathematical models
Orthotropic action in stiffened web and flange plates
Non-linear finite-element analysis and initial imperfections
FirsYield linet principles
Compressive membrane action
Surfacing
Shear in prestressed concrete flanged beams
Inclined neutral axis
Bearing clamping
References
Repair, strengthening and replacement
Introduction
Repair and strengthening of concrete structures
Repair and strengthening of metal structures
Repair and strengthening of masonry structures
Replacement of structures
References
Further reading
Index
Observaciones 2008
Medidas 21x30
Paginas 704
Precio 260,00 euros
