This book is written for senior level undergraduate or first-year graduate students in civil engineering. It is also suitable for practicing bridge engineers to use as a reference book in design. The text is the outgrowth of the author's lecture notes developed in teaching the international class on design of concrete bridges at Southwest Jiaotong University, China since 2012 and the research and consulting experience in the area of concrete bridges over the years. The objective is to provide fundamental theories and approaches for design and analysis of reinforced and prestressed concrete bridges, based on China’s up-to-date railway and highway design codes and specifications. The emphasis is on the understanding of the structural behavior and performance of reinforced and prestressed concrete structures, with developing proficiency in practical methods of design. Design of Concrete Bridges 混凝土桥梁设计 武守信 著 成品尺寸 185mm×260mm 印 张 23.5 字 数 545千 版 次 2021年5月第1版 印 次 2021年5月第1次 书 号 ISBN 978-7-5643-8026-7 定 价 68.00元 Preface vii Chapter 1 Introduction 001 1.1 Significance of bridges 001 1.2 Structural types of concrete bridges 003 1.3 Historic development of bridge building 011 1.4 Advancement of bridges in China 017 References 023 Chapter 2 Construction Materials 025 2.1 Introduction 025 2.2 Concrete 025 2.3 Steel 035 2.4 Reinforcing steel bars 039 References 045 Chapter 3 Loads 048 3.1 Introduction 048 3.2 Dead loads 049 3.3 Chinese railway live loads 051 3.4 Braking and traction forces 058 3.5 Wind loads 058 3.6 Seismic loads 062 3.7 Pedestrian loads 066 3.8 Chinese highway live loads 066 3.9 Other loads 070 3.10 Load combinations 070 References 075 Chapter 4 Design Philosophies and Specifications 077 4.1 Introduction 077 4.2 Allowable stress design (ASD) 079 4.3 Load factor design (LFD) 081 4.4 Load and resistance factor design (LRFD or LSD) 083 References 091 Chapter 5 Influence Lines and Load Distribution 093 5.1 Introduction 093 5.2 Influence lines 094 5.3 Placement of loads 109 5.4 Envelop of maximum internal forces 118 5.5 Transverse load distribution 121 References 150 Chapter 6 Reinforced Concrete Girder Bridges 152 6.1 Introduction 152 6.2 Configurations of bridge deck 153 6.3 Design methods 158 6.4 Detailing of reinforcement 213 6.5 Bridge examples 222 References 232 Chapter 7 Prestressed Concrete Girder Bridges 235 7.1 Introduction 235 7.2 Principles of prestressing 239 7.3 Prestressing systems 249 7.4 Loss of prestress 257 7.5 Design methods 268 7.6 Example bridges 309 References 315 Chapter 8 Continuous Concrete Bridges 317 8.1 Introduction 317 8.2 Overview of prestressed concrete continuous bridges 318 8.3 Layout of span lengths with girder depths 319 8.4 Cross-sections 321 8.5 Layouts and detailing of prestressing tendons 324 8.6 Design issues 328 References 333 Chapter 9 Construction of Concrete Girder Bridges 335 9.1 Introduction 335 9.2 Construction of concrete elements 335 9.3 Temporary works 337 9.4 Erection methods 342 References 353 Appendix A Distribution Factors for the Guyon-Massonnet Method 355 '
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