Fundamentals of Structural Dynamics - Softcover

Zhou, Zhihui

 
9780128237045: Fundamentals of Structural Dynamics
Softcover
ISBN 10: 012823704X ISBN 13: 9780128237045
Verlag: Elsevier, 2021

Inhaltsangabe

Dynamics of Structural Dynamics explains foundational concepts and principles surrounding the theory of vibrations and gives equations of motion for complex systems. The book presents classical vibration theory in a clear and systematic way, detailing original work on vehicle-bridge interactions and wind effects on bridges. Chapters give an overview of structural vibrations, including how to formulate equations of motion, vibration analysis of a single-degree-of-freedom system, a multi-degree-of-freedom system, and a continuous system, the approximate calculation of natural frequencies and modal shapes, and step-by-step integration methods. Each chapter includes extensive practical examples and problems.

This volume presents the foundational knowledge engineers need to understand and work with structural vibrations, also including the latest contributions of a globally leading research group on vehicle-bridge interactions and wind effects on bridges.

  • Explains the foundational concepts needed to understand structural vibrations in high-speed railways
  • Gives the latest research from a leading group working on vehicle-bridge interactions and wind effects on bridges
  • Lays out routine procedures for generating dynamic property matrices in MATLAB©
  • Presents a novel principle and rule to help researchers model time-varying systems
  • Offers an efficient solution for readers looking to understand basic concepts and methods in vibration analysis

Die Inhaltsangabe kann sich auf eine andere Ausgabe dieses Titels beziehen.

Über die Autorinnen und Autoren

Zhihui Zhou is an Associate Professor in the School of Civil Engineering at Central South University in China. His research focuses on train derailment and vibration analysis. He has led several research projects, including on the safe operation of high-speed trains over railway bridges, and the safety of long-span cable-stayed bridge trains. He holds a PhD in Bridge and Tunnel Engineering, and has published over 30 papers, and two monographs.

Dr Ying Wen was employed in the School of Civil Engineering, CSU, after obtaining his Ph.D. degree in 2010, and he was promoted to be the associate professor in 2012. He took up the research associate in the Department of Civil and Structural Engineering, The Hong Kong Polytechnic University in 2011. In 2014, Dr Wen was invited to visit the Department of Aerospace and Mechanical Engineering, University of Southern California, for a collaborative research on the problem of moving loads on structures. After he returned to CSU in 2015, Dr Wen was appointed as the vice director of the Key Laboratory of Engineering Structures of Heavy-haul Railway, Ministry of Education. Dr Wen has interest in fields of various structural dynamics and stability, especially nonlinear mechanics of long span bridges and their dynamic stability under moving trains. Dr Wen has published more than 20 journal papers, one of which is listed as Top 25 Hottest articles published in ‘Finite Elements in Analysis & Design’. He also published three Chinese monographs about statics and dynamics of structures as a co-author. Dr Wen obtained the awards of the Science and Technology Progress of Hunan Province (2006) and Zhejiang Province (2011).

Dr Chenzhi Cai received his BS degree in civil engineering and MS degree in road and railway engineering from CSU in 2011 and 2015, respectively. He graduated from The Hong Kong Polytechnic University with a Ph.D. degree in civil engineering in 2018 and joined the Department of Bridge Engineering as well as the Wind Tunnel Laboratory of CSU as an associate professor later this year. Dr Cai’s main research interests are the fields of noise and vibration control, high-speed railway bridge/elevated subway system, and the train-induced ground vibration isolation. He has participated in several research projects funded by the Hong Kong government and has also received research funding from National Natural Science Foundation of China and Hunan Provincial Natural Science Foundation of China. Dr Cai has published more than 20 papers in international journals, and some of his work is under consideration of acceptance by UK CIBSE Guide.

Prof. Qingyuan Zeng is a distinguished scientist on bridge engineering in Central South University. He obtained his BS and MS degrees from the Department of Civil Engineering, Nanchang University and Department of Engineering Mechanics, Tsinghua University, in 1950 and 1956, respectively. He was elected as the member of Chinese Academy of Engineering in 1999 for his great contributions to local-global interactive buckling behavior of long-span bridge structures, train-bridge interaction dynamics and the basic theory of train derailment. He presented the principle of total potential energy with a stationary value in elastic system dynamics and the ‘set-in-right-position’ rule for assembling system matrices, which is a significant improvement of classical theory of structural dynamics and finite element method. Prof. Zeng has an international reputation for his originality in the transverse vibration mechanism and time-varying analysis method of train-bridge system. He has authored and co-authored more than 100 journal papers, 3 monographs and 3 textbooks. He received numerous awards, including State Science and Technology Progress Award, Distinguished Achievement Award for Railway Science and Technology from Zhan Tianyou Development Foundation, and Honorary Member Award from the China Railway Society. He has supervised more than 16 MS students and 30 Ph.D. students in the past three decades.

Von der hinteren Coverseite

Rapid development of high-speed rail over two decades has focussed research on the safe, smooth running, and comfort of train journeys. Smooth, comfortable railways are closely related to vibration. For example, in train-track-bridge coupling systems where bridges span rivers, and sea-crossings that face extreme winds and currents, and for the seismic performance of bridges in earthquake zones. Vibration is critical to solving these and other challenges, and a foundational knowledge of structural dynamics is essential to understand structural vibration in railways. Dynamics of Structures explains foundational concepts and principles in the theory of vibrations, and gives equations of motion for complex systems. The title presents classical vibration theory in a clear and systematic way, and details original work on vehicle-bridge interactions and wind effects on bridges. Seven chapters give an overview of structural vibrations, including how to formulate equations of motion; vibration analysis of a single-degree-of-freedom system, a multi-degree-of-freedom system, and a continuous system; the approximate calculation of natural frequencies and modal shapes; and step-by-step integration methods. Each chapter includes extensive practical examples and problems. This volume presents the foundational knowledge engineers need to understand and work with structural vibrations, and includes the latest contributions of a globally leading research group on vehicle-bridge interactions and wind effects on bridges.

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Verlag
Elsevier
Erscheinungsdatum
2021
Sprache
Englisch
ISBN 10 
012823704X
ISBN 13 
9780128237045
Einband
Tapa blanda
Anzahl der Seiten
286
Kontakt zum Hersteller
ELSEVIER
https://www.elsevier.com/es-es

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