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Computational Analysis and Design of Bridge Structures
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Table of Contents

Part I

General

Introduction

History of bridges

Bridge types and design process

Loads and load factors

Current development of analysis and design of bridges

Outlook on analysis and design of bridges

Approximate and refined analysis methods

Introduction

Various bridge structural forms

Approximate analysis methods

Plane frame analysis method

Refined analysis methods

Different types of bridges with their selected mathematical modeling

Numerical methods in bridge structure analysis

Introduction

Finite element method

Automatic time incremental creep analysis method

Influence line/surface live loading method

Part II

Bridge behavior and modeling

Reinforced concrete bridges

Introduction

Concrete and steel material properties

Behavior of nonskewed/skewed concrete beam-slab bridges

Principle and modeling of concrete beam-slab bridges

2D and 3D illustrated examples: Three-span continuous skewed concrete slab bridges

2D and 3D illustrated examples: RC T-beam bridge

3D illustrated examples: Skewed simple-span transversely post-tensioned adjacent precast-concrete slab bridges-Knoxville Bridge, Frederick, Maryland

Prestressed/post-tensioned concrete bridges

Prestressing basics

Principle and modeling of prestressing

2D illustrated example of a prototype prestressed/post-tensioned concrete bridge in the United States

3D illustrated example of a double-cell post-tensioning concrete bridge-Verzasca 2 bridge, Switzerland

3D illustrated example of US23043 precast prestressed concrete beam bridge-Maryland

Illustrated example of a three-span prestressed box-girder bridge

Illustrated example of long-span concrete cantilever bridges-Jiangsu, People's Republic of China

Curved concrete bridges

Basics of curved concrete bridges

Principle and modeling of curved concrete bridges

Spine model illustrated examples of Pengpo Interchange, Henan, People's Republic of China

Grillage model illustrated examples-FHWA Bridge No. 4 185

3D finite element model illustrated examples-NCHRP case study bridge

Straight and curved steel I-girder bridges

Behavior of steel I-girder bridges

Principle and modeling of steel I-girder bridges

2D and 3D illustrated example of a haunched steel I-girder bridge-MD140 Bridge, Maryland

2D and 3D illustrated example of a curved steel I-girder bridge-Rock Creek Trail Pedestrian Bridge, Maryland

2D and 3D illustrated example of a skewed and kinked steel I-girder bridge with straddle bent

2D and 3D illustrated example of a global and local modeling of a simple-span steel I-girder bridge-I-270 Middlebrook Road Bridge, Germantown, Maryland

Straight and curved steel box girder bridges

Behavior of steel box girder bridges

Principle and modeling of steel box girder bridges

2D and 3D illustrated examples of a straight box girder bridge

2D and 3D illustrated examples of a curved box girder bridge-Metro bridge over I495, Washington, DC

2D and 3D illustrated examples of three-span curved box girder bridge-Estero Parkway Bridge, Lee County, Florida

Arch bridges

Introduction

Construction of arch bridges

Principle and analysis of arch bridges

Modeling of arch bridges

3D illustrated example of construction analyses-Yajisha Bridge, Guangzhou, People's Republic of China

3D illustrated example of a proposed tied-arch bridge analyses-Linyi, People's Republic of China

3D illustrated example of an arch bridge-Liujiang Yellow River Bridge, Zhengzhou, People's Republic of China

Steel truss bridges

Introduction

Behavior of steel truss bridges

Principle and modeling of steel truss bridges

3D illustrated example-Pedestrian pony truss bridge

2D illustrated example-Tydings Bridge, Maryland

3D illustrated example-Francis Scott Key Bridge, Maryland

3D illustrated examples-Shang Xin Bridge, Zhejiang, People's Republic of China

Cable-stayed bridges

Basics of cable-stayed bridges

Behavior of cable-stayed bridges

Construction control

Principle and modeling of cable-stayed bridges

Illustrated example of Sutong Bridge, Jiangsu, People's Republic of China

Illustrated example with dynamic mode analysis of Panyu Bridge, Guangdong, People's Republic of China

Illustrated example with dynamic mode analysis of long cables with crossties

Suspension bridges

Basics of suspension bridges

Construction of suspension bridges

Behavior of suspension bridges

Principle and modeling of suspension bridges

3D illustrated example of Chesapeake Bay Suspension Bridge, Maryland

Part III

Special topics of bridges

Strut-and-tie modeling

Principle of strut-and-tie model

Hand-calculation example of STM

2D illustrated example 1-Abutment on pile

2D illustrated example 2-Walled pier

2D illustrated example 3-Crane beam

2D/3D illustrated example 4-Hammerhead Pier of Thomas Jefferson Bridge

2D illustrated example 5-Integral bent cap

Alternate compatibility STM and 2D illustrated example 6-Cracked deep bent cap

Stability

Basics of structural stability

Buckling

FEM approach of stability analysis

3D illustrated example with linear buckling analysis of a pony truss, Pennsylvania

3D illustrated example with linear buckling analysis of a standard simple arch rib

3D illustrated example with linear buckling analysis of a proposed tied-arch bridge-Linyi, People's Republic of China

3D illustrated example with nonlinear stability analysis of a cable-stayed bridge, Jiangsu, People's Republic of China

Redundancy analysis

Basics of bridge redundancy

Principle and modeling of bridge redundancy analysis

3D example with redundancy analysis of a pony truss, Pennsylvania

3D redundancy analysis under blast loading of a PC beam bridge, Maryland

3D analysis under blast loading of a steel plate girder bridge, Maryland

Integral bridges

Basics of integral bridges

Principle and analysis of IABs

Modeling of IABs

Illustrated example of a steel girder bridge in soil spring finite element model

Illustrated example of a steel girder bridge in 3D soil continuum finite element model

Dynamic/earthquake analysis

Basics of dynamic analysis

Principle of bridge dynamic analysis

Modeling of bridge for dynamic analysis

3D illustrated example of earthquake analysis by SPA, MPA, and NL-THA-FHWA Bridge No. 4536

3D illustrated example of a high-pier bridge subjected to oblique incidence seismic waves-Pingtang bridge, People's Republic of China

Bridge geometry

Introduction

Roadway curves

Curve calculations

Curve and surface tessellation

Bridge deck point calculations

Precast segmental bridge geometry control

Trend of bridge computer modeling and visualization

References

Index

About the Author

Chung C. Fu, PhD, PE, FASCE, is research professor and bridge consultant, and director of the Bridge Engineering Software and Technology (BEST) Center at the University of Maryland, College Park, Maryland. His publications include 50 referred publications, 20 publications, more than 100 presentations and conference proceedings, and 50 public technical reports. His areas of expertise cover all types of structural engineering, bridge engineering, earthquake engineering, computer application in structures, finite element analysis, ultra high-performance concrete, steel and composite applications, including fiber-reinforced polymer and high-performance steel for innovative bridge research and construction, bridge management, testing (material and structural), and nondestructive evaluation applications. Shuqing Wang, PhD, PE, is a senior GIS specialist on contract with the Federal Highway Administration; research fellow/bridge consultant in bridge software development and structural analysis at the BEST Center, University of Maryland, College Park, Maryland; and former director of the Bridge CAD Division at the Department of Bridge Engineering, Tongji University, People's Republic of China. His areas of expertise span from leading-edge software technologies to bridge engineering practices, especially modern bridge modeling and structural analysis system development. His research interests now focus on visualizing structural behavior in real time and representing bridge geometric and mechanics models in three dimensions.

Reviews

"With the increasing complexity of bridges today, bridge engineers require more contemporary references on the topic of bridge analysis. This book provides a great desktop reference for the entry-level to the seasoned bridge engineer. The authors have provided a great balance in theory and application to cover the spectrum of bridge types we design, rehabilitate, preserve, and repair in the industry today. The analysis of bridges continues to evolve to meet the complexity of today's bridges - this book will serve as a vital tool to bridge engineers challenged with implementing a more refined analysis."
-Shane R. Beabes, PE, AECOM, District Chief Engineer - Bridges, Associate Vice President Chair - AASHTO / NSBA Joint Collaboration Committee

"Modern bridge design has evolved, along with the technology of computers, exponentially in our time. The expertise offered by these authors in this book will be invaluable to anyone interested in learning modern bridge design thru computer modeling. All of the available options for computer modeling are discussed along with their pros and cons, and are demonstrated with examples and powerful graphics. ...The application of today's computer technology to the art of bridge design can be a big challenge. This book lays out the available options and their limitations, for the use of computer modeling in designing virtually all types of bridge components, structure types and span lengths."
-William J. Moreau, P.E., New York State Bridge Authority, USA

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