公路车辆-桥梁耦合振动的数值模拟与应用(英文版)

Chapter 1 Introduction
1．1 Background and Thematic Basis
1．2 Promising Approach to Dealing with Highway Infrastructure Problem
1．3 Book Organization

Chapter 2 Framework of Vehicle-Bridge Coupled Modeling
2．1 Introduction
2．2 Methodology
2．2．1 Modeling of Vehicle
2．2．2 Modeling of Bridge
2．2．3 Road Surface Condition
2．2．4 Assembling of Bridge-Vehicle Equation of Motion
2．3 Numerical Demonstration Example
2．3．1 Impact Factor and Dynamic Load Coefficient
2．3．2 Effect of Road Roughness
2．3．3 Effect of Vehicle Damping
2．3．4 Effect of Vehicle Rigidity
2．3．5 Effect of Vehicle Weight
2．3．6 Effect of Vehicle Speed
2．3．7 Results in Frequency Domain
2．4 Conclusions
References

Chapter 3 Vehicle-Induced Impact on Bridges
3．1 Definition of Impact Factor
3．2 Bridge Code Provisions Worldwide
3．2．1 AASHTO Code
3．2．2 Ontario‘s Code and Canadian Code
3．2．3 Chinese Code
3．2．4 Zelanian Code
3．2．5 Australian Code
3．2．6 European Code
3．2．7 British Code
3．2．8 Japanese Code
3．3 Numerical Simulation of Effect of Approach Span Condition
3．3．1 Mechanism and Modeling of Bump and Road Roughness．
3．3．2 Selected Vehicle and Bridge Models
3．4 Dynamic Responses of Slab Bridges under Different Conditions
3．4．1 Effect of Vehicle Speed
3．4．2 Effect of Approach Span Condition
3．4．3 Effect of Bridge Deck Surface Condition
3．4．4 IMs of Slab Bridges
3．5 Dynamic Responses of Slab-on-Girder Bridges under Different Conditions
3．5．1 Effect of Approach Span Condition on the Mid-Span Defiection
3．5．2 Effect of Approach Span Condition on the Dynamic Tire Force
3．5．3 IMs of Slab-on-Girder Bridges
3．5．4 Concluding Remarks
3．6 Local and Global Impact Factors of Bridges
3．6．1 Problem Statement
3．6．2 Dynamic Responses of Bridges
3．6．3 Effect of Bridge Span Length
3．6．4 Effect of Road Surface Condition
3．6．5 Effect of Vehicle Speed
3．6．6 Discussion on Code Provisions
3．7 Influence of Damaged Expansion Joint on Impact Factors
3．7．1 Effect of Bridge Span Length
3．7．2 Effect of Road Surface Condition
3．7．3 Effect of Vehicle Speed
3．7．4 Concluding Remarks
……
Chapter 4 Vibration-Based Damage Detection and Characterization of Bridges
Chapter 5 Assessment of Vehicle-Induced Fatigue of Bridges
Chapter 6 Vehicle-Induced Vibrations of High-Pier Bridges
Chapter 7 Vehicle Characterization Based on Vehicle-Bridge Interaction
Chapter 8 Energy Harvesting on Vehicle-Induced Vibrations of Bridges