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Finite Element Analysis and Design of Steel and Steel–Concrete Composite Bridges

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Descripción

Finite Element Analysis and Design of Steel and Steel-Concrete Composite Bridges, Second Edition provides structural engineers and researchers with detailed modeling techniques for creating robust design models.


Características

  • ISBN: 9780443189951
  • Edición:
  • Idioma: Inglés
  • Año: 2023

Disponibilidad: 24 horas

Contenido Finite Element Analysis and Design of Steel and Steel–Concrete Composite Bridges

Finite Element Analysis and Design of Steel and Steel-Concrete Composite Bridges, Second Edition provides structural engineers and researchers with detailed modeling techniques for creating robust design models. The book’s chapters cover various forms of modern steel and steel–concrete composite bridges as well as current design codes (American, British and Eurocodes). Other chapters address: nonlinear material behavior of bridge components, applied loads and stability of steel and steel–concrete composite bridges, and design of steel and steel–concrete composite bridge components. The book’s final chapter focuses on finite element analysis and design of steel-concrete composite bridges with profiled steel sheeting. The book will be a valuable reference source on the issues, problems, challenges and questions that should be asked when designing a composite highway steel bridge with profiled steel sheeting and finite element modeling of the bridge components.

Table of Contents
Copyright

Chapter 1: Introduction

Abstract
1.1: General remarks
1.2: Types of steel and steel-concrete composite bridges
1.3: Literature review of steel and steel-concrete composite bridges
1.4: Finite element modeling of steel and steel-concrete composite bridges
1.5: Current design codes of steel and steel-concrete composite bridges
References

Chapter 2: Nonlinear material behavior of the bridge components

Abstract
2.1: General remarks
2.2: Nonlinear material properties of structural steel
2.3: Nonlinear material properties of concrete
2.4: Nonlinear material properties of reinforcement bars
2.5: Nonlinear material properties of prestressing tendons
2.6: Nonlinear behavior of shear connection
References

Chapter 3: Applied loads and stability of steel and steel-concrete composite bridges

Abstract
3.1: General remarks
3.2: Dead loads of steel and steel-concrete composite bridges
3.3: Live loads on steel and steel-concrete composite bridges
3.4: Horizontal forces on steel and steel-concrete composite bridges
3.5: Other loads on steel and steel-concrete composite bridges
3.6: Load combinations
3.7: Design approaches
3.8: Stability of steel and steel-concrete composite plate girder bridges
3.9: Stability of steel and steel-concrete composite truss bridges
3.10: Design of bolted and welded joints
3.11: Design of bridge bearings
References

Chapter 4: Design examples of steel and steel-concrete composite bridges

Abstract
4.1: General remarks
4.2: Design example of a double track plate girder deck railway steel bridge
4.3: Design example of a through-truss highway steel bridge
4.4: Design example of a highway steel-concrete composite bridge
4.5: Design example of a double track plate girder pony railway steel bridge
4.6: Design example of a deck truss highway steel bridge

Chapter 5: Finite element analysis of steel and steel-concrete composite bridges

Abstract

5.1: General remarks
5.2: Choice of finite element types for steel and steel-concrete composite bridges
5.3: Choice of finite element mesh for the bridges and bridge components
5.4: Material modeling of the bridge components
5.5: Linear and nonlinear analyses of the bridges and bridge components
5.6: Riks method
5.7: Modeling of initial imperfections and residual stresses
5.8: Modeling of shear connection for steel-concrete composite bridges
5.9: Application of loads and boundary conditions on the bridges
References

Chapter 6: Examples of finite element models of steel bridges
Abstract

6.1: General remarks
6.2: Previous work
6.3: Finite element modeling and results of example 1
6.4: Finite element modeling and results of example 2
6.5: Finite element modeling and results of example 3
6.6: Finite element modeling and results of example 4
References

Chapter 7: Examples of finite element models of steel-concrete composite bridges
Abstract

7.1: General remarks
7.2: Previous work
7.3: Finite element modeling and results of example 1
7.4: Finite element modeling and results of example 2
7.5: Finite element modeling and results of example 3
References

Chapter 8: Extension of the combined finite element analysis and design approach to composite highway bridges with profiled steel sheeting
Abstract

8.1: General remarks
8.2: Previous work
8.3: Design example of a composite highway bridge with profiled steel sheeting
8.4: Main finite element modeling issues related to composite bridges with profiled steel sheeting
8.5: Finite element modeling and results of a composite highway bridge with profiled steel sheeting
8.6: Further numerical studies for composite bridges with profiled steel sheeting
8.7: Benefits of combining finite element analysis with design in bridges with profiled steel sheeting
References
Index

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