Design of Prestressed Concrete to Eurocode 2, Second Edition - Figures Slides
1st Edition
Will be published approx. on 28. February 2017
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978-1-4665-7718-3 (ISBN)
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Description
Much of this text is based on first principles and relies only on the principles of mechanics and the properties of concrete and steel, with numerous worked examples. It retains the clear and concise explanations and the easy-to-read style of the first edition, but the content has been expanded considerably and updated. The scope of the work ranges from an introduction to the fundamentals of prestressed concrete to in-depth treatments of the more advanced topics in modern prestressed concrete structures.
More details
Persons
Content
Basic concepts
Introduction
Methods of prestressing
Transverse forces caused by draped tendons
Calculation of elastic stresses
Introduction to structural behaviour - initial to ultimate
Design procedures, actions and loads
Limit States Design philosophy
Structural modeling and analysis
Loads and load combinations
Design for the strength limit states (Eurocode )
Design for the serviceability limit states (Eurocode )
Design for durability (Eurocode )
Design for fire resistance (Eurocode )
Design for robustness (Eurocode )
References
Prestressing Systems and Construction Requirements
Pretensioning
Post-tensioning
External prestressing
Circular prestressing
Jacking and anchorage systems
Bonded versus unbonded construction
Grouting and finishing
Curing and protection of concrete
Material Properties
Materials for prestressing
Concrete
Non-prestressed steel
Prestressing steel
Design for Serviceability
Introduction
Determination of prestressing force and eccentricity of
prestress
Short-term analysis of cross-sections
Time-dependent analysis of cross-sections
Losses of prestress
Ultimate strength in bending and axial force
Introduction
Flexural behaviour at overloads
Flexural strength theory
Approximate code-oriented procedures
Design calculations
Ductility of prestressed concrete beams
Detailing of longitudinal reinforcement and tendons
References
Ultimate strength in shear and torsion
Introduction
Shear in beams
Design strength in shear
Torsion in beams
Design strength in torsion
Shear in slabs and footings
Detailing of shear and torsional reinforcement
References
Anchorage Zones and Strut-and-Tie
Modelling
Introduction
Anchorage of pretensioned tendons
Post-tensioned concrete anchorage zones
References
Composite Members
Types and advantages of prestressed concrete composite construction
Behaviour of composite members
Service load analysis
Ultimate strength analysis
References
Statically Indeterminate Members
Introduction
Tendon profiles and tendon continuity
Continuous beams
Framed structures
Design of continuous beams
Worked example
References
Two-way slabs - behaviour and design
Introduction to design
Effects of prestress - the balanced load stage
Initial sizing of slabs
One-way slabs
Two-way edge-supported slabs
Flat slabs
Band-beam and slab systems
Compression and Tension Members
Types of compression members
Classification and behaviour of compression members
Ultimate strength analysis
Slenderness effects
Axial shortening of columns
Reinforcement requirements for compression members
Tension members
References
Connections and Detailing of Prestressed Concrete
Introduction
Eurocode Requirements
Precast connections
Dapped-end connections
Corbels and brackets
Beam-column connections
Pile caps and deep beams
Movement joints
References
Design of Prestressed Concrete Bridges
Introduction
Types of Prestressed Concrete Bridges
Construction Techniques and Design requirements
Design Loadings
Retrofitting and Repair of bridges
Bridge Deck Analysis and Modeling
Design of prestressed bridge deck beam
Design of a headstock
Design of a box-girder bridge
References
Appendices
A Recommended dead and live loads
B Design data for reinforcing bars, tendons and ducts
C Properties of cross-sections
D Standard precast pretensioned shapes
Index
Introduction
Methods of prestressing
Transverse forces caused by draped tendons
Calculation of elastic stresses
Introduction to structural behaviour - initial to ultimate
Design procedures, actions and loads
Limit States Design philosophy
Structural modeling and analysis
Loads and load combinations
Design for the strength limit states (Eurocode )
Design for the serviceability limit states (Eurocode )
Design for durability (Eurocode )
Design for fire resistance (Eurocode )
Design for robustness (Eurocode )
References
Prestressing Systems and Construction Requirements
Pretensioning
Post-tensioning
External prestressing
Circular prestressing
Jacking and anchorage systems
Bonded versus unbonded construction
Grouting and finishing
Curing and protection of concrete
Material Properties
Materials for prestressing
Concrete
Non-prestressed steel
Prestressing steel
Design for Serviceability
Introduction
Determination of prestressing force and eccentricity of
prestress
Short-term analysis of cross-sections
Time-dependent analysis of cross-sections
Losses of prestress
Ultimate strength in bending and axial force
Introduction
Flexural behaviour at overloads
Flexural strength theory
Approximate code-oriented procedures
Design calculations
Ductility of prestressed concrete beams
Detailing of longitudinal reinforcement and tendons
References
Ultimate strength in shear and torsion
Introduction
Shear in beams
Design strength in shear
Torsion in beams
Design strength in torsion
Shear in slabs and footings
Detailing of shear and torsional reinforcement
References
Anchorage Zones and Strut-and-Tie
Modelling
Introduction
Anchorage of pretensioned tendons
Post-tensioned concrete anchorage zones
References
Composite Members
Types and advantages of prestressed concrete composite construction
Behaviour of composite members
Service load analysis
Ultimate strength analysis
References
Statically Indeterminate Members
Introduction
Tendon profiles and tendon continuity
Continuous beams
Framed structures
Design of continuous beams
Worked example
References
Two-way slabs - behaviour and design
Introduction to design
Effects of prestress - the balanced load stage
Initial sizing of slabs
One-way slabs
Two-way edge-supported slabs
Flat slabs
Band-beam and slab systems
Compression and Tension Members
Types of compression members
Classification and behaviour of compression members
Ultimate strength analysis
Slenderness effects
Axial shortening of columns
Reinforcement requirements for compression members
Tension members
References
Connections and Detailing of Prestressed Concrete
Introduction
Eurocode Requirements
Precast connections
Dapped-end connections
Corbels and brackets
Beam-column connections
Pile caps and deep beams
Movement joints
References
Design of Prestressed Concrete Bridges
Introduction
Types of Prestressed Concrete Bridges
Construction Techniques and Design requirements
Design Loadings
Retrofitting and Repair of bridges
Bridge Deck Analysis and Modeling
Design of prestressed bridge deck beam
Design of a headstock
Design of a box-girder bridge
References
Appendices
A Recommended dead and live loads
B Design data for reinforcing bars, tendons and ducts
C Properties of cross-sections
D Standard precast pretensioned shapes
Index