Wind-induced Vibration of Long Span Suspension Bridges
$548.61
- Paperback
300 pages
- Release Date
1 November 2025
Summary
Conquer the Wind: Understanding Vibration in Long Span Suspension Bridges
Wind-induced Vibration of Long Span Suspension Bridges presents in-depth research on the behavior of these majestic structures under the relentless force of wind. Through a comprehensive approach, combining:
- Onsite Measurements: Real-world data collection for accurate analysis.
- Wind Tunnel Tests: Controlled simulations to predict bridge response.
Book Details
| ISBN-13: | 9780443335181 |
|---|---|
| ISBN-10: | 0443335184 |
| Series: | Woodhead Publishing Series in Civil and Structural Engineering |
| Author: | Yang Yang, Bo Wu, Long Li |
| Publisher: | Elsevier - Health Sciences Division |
| Imprint: | Woodhead Publishing |
| Format: | Paperback |
| Number of Pages: | 300 |
| Release Date: | 1 November 2025 |
| Weight: | 0g |
| Dimensions: | 229mm x 152mm |
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About The Author
Yang Yang
Dr. Yang Yang is the Director of Engineering and Construction, School of Civil Engineering, Chongqing University, China. She is currently the assistant secretary-general of the National Standards Working Group for Monitoring of Engineering Structures, an editorial board member of the “Journal of Intelligent Construction and the vice president of the Chongqing Construction Industry Association Informatization Branch. In addition to presiding over several Natural Science Fund and National Key Research and Development Program projects she has been granted more than fifteen patents. Dr Yang is the winner of the first prize of China Architectural Society Science and Technology Progress Award.
Dr. Wu is a Doctor of Engineering and is an Associate Professor at Chongqing Jiaotong University, specializing in civil engineering. His research focuses on aerodynamic characteristics, wind loads, wind-induced vibrations of large-span bridges, and bridge health monitoring.
Long Li is a postgraduate at Chongqing University. Research interests focus on vortex-induced vibration problems of large-span bridges, machine learning to predict bridge vortex-induced vibration and optimization of main girder aerodynamic profile.
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