CONTÁCTENOS - 91 575 78 24
RSS
Estás en www.ingenieriayarte.com
Si no encuentra un libro lo buscamos por Ud.
91 575 78 24

CESTA DE LA COMPRA

Tiene 0 productos en su cesta Importe total: 0
> > Steel-Concrete Composite Buildings.Designing with Eurocodes

Por favor introduzca la cantidad deseada y pulse sobre el carrito.

100 €/Ud.
Cantidad:

Steel-Concrete Composite Buildings.Designing with Eurocodes

Autor:

Descripción

A concise and accessible guide to the practical and economical design of composite buildings, Steel-Concrete Composite Buildings employs the latest methods as outlined in Eurocodes and includes up-to-date examples of the uses of composite construction in buildings in the UK, US, Asia and other parts of the world.


Características

  • ISBN: 9780727740892
  • Páginas: 218
  • Tamaño: 17x24
  • Edición:
  • Idioma: Inglés
  • Año: 2010

Quedan (1) unidades en stock. Es posible hacer un pedido mayorDisponibilidad Inmediata

Contenido Steel-Concrete Composite Buildings.Designing with Eurocodes

A concise and accessible guide to the practical and economical design of composite buildings, Steel-Concrete Composite Buildings employs the latest methods as outlined in Eurocodes and includes up-to-date examples of the uses of composite construction in buildings in the UK, US, Asia and other parts of the world. The essential reference for those engaged in design of composite structures, Steel-Concrete Composite Buildings will provide readers not only with simpler methods for design and construction but also a deeper understanding of these methods and how they are verified against the latest design codes.

Contents and Preliminary Pages

Introduction: Eurocodes


Introduction
Eurocode 0
Eurocode 1
Eurocodes 2, 3 and 4

1 General concepts

Introduction
Structural forms
Codes
Materials
Composite action
Shear connectors
Testing of the shear connection
Example 1.1 Connector tests

2 Composite slabs

Slab types
Loads and actions
Partial factors
Analysis
Combination of actions
Bending strength of reinforced concrete
Bending strength of a composite slab
Example 2.1 Composite slab in bending
Longitudinal shear
Vertical shear capacity
Effects of continuity
Fire resistance
Deflections, serviceability and construction issues

3 Composite beams

Introduction
Non-composite steel beams
Composite beams — solid slab
Example 3.1 Beam and solid slab
Composite beams — ribbed slab
Example 3.2 Beam and ribbed slab
Partial shear connection
Composite beams — precast slab
Example 3.3 Partial composite beam with precast slabs
Fire resistance of composite beams

4 Asymmetrical, encased and castellated sections

Asymmetrical beams
Example 4.1 Asymmetrical beam
Castellated and cellular beams
Example 4.2 Analysis of a castellated beam
Plate girders
Encased sections
Slimfloor structures
Example 4.3 Slimfloor beam test
Fire resistance of composite beams

5 Composite columns

Introduction
Concrete columns
Steel sections under axial load
Composite columns
Contribution ratio
Example 5.1 Testing of encased and filled tubes
Load transfer
Buckling of composite columns
Example 5.2 Buckling of encased and filled tubes
Moment—axial load (M—N) interaction
Example 5.3 M—N interaction diagram of a filled tubey
Biaxial bending and axial load
Fire resistance of columns

6 Trusses

Introduction
Member strengths
Joints
Longitudinal shear transfer
Example 6.1 Floor trusses
Vierendeel trusses
Fire resistance of composite trusses
Storey-depth trusses
Large joints
Example 6.2 City of London storey deep truss

7 Braced frames

Introduction
Joints
Structural efficiency
Environmental issues
Example 7.1 Efficiency of floor plates
Building frames
Forces on bracing frames
Wind action
Horizontal destabilising forces
Partial load factors
Example 7.2 Horizontal forces
Vertical bracing
Steel bracing
Concrete bracing
Composite walls and bracing
Example 7.3 Steel, concrete and composite stability frame analisys
Double-skin composite panels
Horizontal bracing

8 Cantilevers, cracking and double composite beams

Introduction
Cantilever beams
Bracing
Tension stiffening
Effective slab width
Moment—shear interaction
Example 8.1 Cantilever cracking
Longitudinal shear
Shrinkage
Shear flow and changes in section
Example 8.2 Longitudinal shear
Continuous beams
Example 8.3 Continuous beam analysis
Haunches
Double composite action
Joints in continuous beams

9 Moment-resisting frames

Introduction
Wind moment method
Example 9.1 Wind moment method
Semi-rigid joints
Joint strength
Example 9.2 Joint strength
Joint stiffness
Example 9.3 Joint stiffness
Example 9.4 Full analysis
Frame bracing interaction
Tall buildings
Example 9.5 Tall composite tower

10 Serviceability and construction issues

Introduction
Construction loads
Deflections during construction
Lightweight concrete
Fibre-reinforced concrete
Stresses in composite sections
Cracking
Example 10.1 Cracking of a composite cantilever
Deflections of composite structures
Example 10.2 Floor plate deflections
Lateral movements
Dynamics
Example 10.3 Floor plate dynamics
Acoustic issues
Durability

11 Accidental actions, robustness and disproportionate collapse

Introduction
History
Accidental actions
Explosions
Terrorist incidents
Overload
Vehicle impact
Natural disasters
Tie requirements
Example 11.1 Floor ties
Disproportionate and progressive collapse
Example 11.2 Column removal
Risk assessment
Example 11.3 RIM analysis

12 Fire

Introduction
History
Fire resistance requirements
Load ratios
Material properties
Composite slabs in fire
Composite beams and trusses in fire
Example 12.1 Partly encased section in fire
Composite columns
Example 12.2 Columns for fire resistance
Stabilising frames and walls

Appendix A Calculation of elastic section properties

Section properties for steel sections
Section properties for steel—concrete composite sections
Section properties for cracked steel—concrete composite sections with reinforcement

Appendix B Plastic section properties for steel—concrete composite sections

Appendix C Properties of steel and steel—concrete sections

Appendix D Characteristic capacity of various connectors

Appendix E Slab spans

Appendix F Composite sheeting properties

 

NO TE PIERDAS LAS NOVEDADES

Suscríbete a nuestro boletín informativo para estar al día de todas las promociones y novedades.

Pago seguro | Mensajerías

Copyright © Despegando S.L. 2018 | | info@ingenieriayarte.com