E-Book, Englisch, 631 Seiten
Fu / Wang Computational Analysis and Design of Bridge Structures
1. Auflage 2015
ISBN: 978-1-4665-7985-9
Verlag: Taylor & Francis
Format: PDF
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
E-Book, Englisch, 631 Seiten
ISBN: 978-1-4665-7985-9
Verlag: Taylor & Francis
Format: PDF
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
The book provides information on the methods of analysis and related modeling techniques suitable for the design and evaluation of various types of bridges. For the purpose of analysis, several special topics such as strut-and-tie modeling, linear and nonlinear buckling analysis, redundancy analysis, integral bridges, dynamic/earthquake analysis and bridge geometry, will also be covered. The book is mainly focused on highway bridges, although some information is provided for railway bridges.
Autoren/Hrsg.
Weitere Infos & Material
PART A - GENERAL
Introduction
Approximate and Refined Analysis Methods
Approximate Analysis Method
Refined Analysis Method
Principle of Finite Element Methods
Principle of Finite Element Methods
Commonly Used Element Types in Bridge Structural Analyses
Geometric and Material Non-linear Analysis
Numerical Techniques
PART B - BRIDGE BEHAVIOR AND MODELING
Concrete Slab Bridges
Behavior of Non-skewed/Skewed Concrete Slab Bridges
Principle and Modeling of Concrete Slab Bridges
D & -D Illustrated Examples
Reinforced Concrete Beam-Slab Bridges
Behavior of Non-skewed/Skewed Concrete Beam-Slab Bridges
Principle and Modeling of Concrete Beam-Slab Bridges
D & -D Illustrated Examples
Prestressed/Post-tensioned Concrete Bridges
Prestressing Basics
Principle and Modeling of Prestressing
D & -D Illustrated Examples
Curved Concrete Bridges
Behavior of Curved Concrete Bridges
Principle and Modeling of Curved Concrete Bridges
D & -D Illustrated Examples
Straight and Curved Steel I-girder Bridges
Behavior of Straight/Skewed/Curved Steel I-girder Bridges
Principle and Modeling of Straight/Skewed/Curved Steel I-girder Bridges
D & -D Illustrated Examples
Straight and Curved Steel Box-girder Bridges
Behavior of Curved Steel Box-girder Bridges
Principle and Modeling of Curved Steel Box-girder Bridges
D & -D Illustrated Examples
Steel Truss Bridges
Behavior of Simple/Cantilever/Continuous Steel Truss Bridges
Principle and Modeling of Steel Truss Bridges
D & -D Illustrated Examples
Cable-stayed Bridges
Behavior of Concrete/Steel/Composite Cable-stayed Bridges
Principle and Modeling of Cable-stayed Bridges
D & -D Illustrated Examples
Suspension Bridges
Behavior of Suspension Bridges
Principle and Modeling of Suspension Bridges
D & -D Illustrated Examples
PART C – SPECIAL TOPICS OF BRIDGES
Strut-and-Tie Modeling
Principle of Strut-and-Tie Model (STM)
Modeling of STM
Illustrated Examples
Linear and Nonlinear Buckling Analysis
Principle and Modeling of Linear Buckling Analysis
Principle and Modeling of Nonlinear Buckling Analysis
Illustrated Examples
Redundancy Analysis
Principle and Modeling of Bridge Redundancy Analysis
Illustrated Examples
Integral Bridges
Principle and Modeling of Bridge Integral Abutment
Principle and Modeling of Bridge Integral Pier
Integral Abutment/Pier Illustrated Examples
Dynamic/Earthquake Analysis
Principle and Modeling of Bridge Dynamics
Principle and Modeling of Bridge Earthquake Analysis
Dynamic/Earthquake Analysis Illustrated Examples
Bridge Geometry
Roadway Curves
Bridge Curves in Plane, Vertical and Transverse
Principle of Curve Calculation
Numerical Implementation in Bridge D Modeling
