Details
Seismic Performance Analysis of Concrete Gravity Dams
Advanced Topics in Science and Technology in China, Band 57
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96,29 € |
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| Verlag: | Springer |
| Format: | |
| Veröffentl.: | 10.07.2020 |
| ISBN/EAN: | 9789811561948 |
| Sprache: | englisch |
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Beschreibungen
<p>This book evaluates the seismic performance of concrete gravity dams, considering the effects of strong motion duration, mainshock-aftershock seismic sequence, and near-fault ground motion. It employs both the extended finite element method (XFEM) and concrete damaged plasticity (CDP) models to characterize the mechanical behavior of concrete gravity dams under strong ground motions, including the dam-reservoir-foundation interaction. In addition, it discusses the effects of the initial crack, earthquake direction, and cross-stream seismic excitation on the nonlinear dynamic response to strong ground motions, and on the damage-cracking risk of concrete gravity dams.</p><p>This book provides a theoretical basis for the seismic performance evaluation of high dams, and can also be used as a reference resource for researchers and graduate students engaged in the seismic design of high dams.</p>
<p>Introduction.- Comparative analysis of nonlinear seismic response of concrete gravity dams using XFEM and CDP model.- Seismic cracking analysis of concrete gravity dams with initial cracks using XFEM.- Seismic potential failure mode analysis of concrete gravity dam–water–foundation systems through incremental dynamic analysis.- Correlation between single component durations and damage measures of concrete gravity dams.- Integrated duration effects on seismic performance of concrete gravity dams.- Damage demand assessment of concrete gravity dams subjected to mainshock-aftershock seismic sequences.- Earthquake direction effects on nonlinear dynamic response of concrete gravity dams to seismic sequences.- Seismic performance evaluation of dam-reservoir-foundation systems to near-fault ground motions.- Deterministic 3D seismic damage analysis of Guandi concrete gravity dam: A case study.<br></p>
<p>Dr. Gaohui Wang (1986–) is an Associate Professor of Wuhan University, whose primary research involves studying the seismic safety evaluation and antiknock assessment of high concrete dams. Now, he is undertaking two research projects supported by the National Natural Science Foundation of China (NSFC) and China Postdoctoral Science Foundation, respectively, and participating in the NSFC programs, the Tianjin Research Program of Application Foundation and Advanced Technology and the Open Foundation of SKL. He has also taken part in a number of transverse projects of hydro-engineering project including Guandi, Jinping Huangdeng, and so on. Up to now, Dr. Wang has published more than 90 academic papers. Among them, 45 and 39 papers are tagged by SCI and EI, respectively. He also won the Scholarship Award for Excellent Doctoral Student granted by the Ministry of Education in 2012.</p><p>Wenbo Lu (1968–) is currently a Professor of Wuhan University and has actively worked in the area ofblasting and rock dynamics, water conservancy, and hydropower project construction technology. He is a chang-jiang scholar and received Distinguished Young Scholar funds of NSFC. Lu is a current member of engineering blasting professional committee of Chinese Society of Theoretical and Applied Mechanics and rock dynamics committee of Chinese Society for Rock Mechanics and Engineering, a member of engineering blasting professional committee of Chinese Hydraulic Engineering Society, the executive director of China Society of Engineering Blasting committee, and a vice president of engineering blasting committee of Hubei province. His research is sponsored by a variety of resources, such as the Major State Basic Research Development Program of China (973 Program), the Key Program of the National Natural Science Foundation of China, and the Technology and Industry for National Defense of China. Lu has over 100 publications on top-tier journals and internationally recognized conference proceedings. He has filed 40 patents, and 30 of them have been authorized. He has received the Second-Grade Awards of National Science and Technology Progress of China for three times and 2 First-Grade Awards of Science and Technology Progress from ministry and province.</p><p>Sherong Zhang (1960–) is currently a Professor of Tianjin University and has actively worked in the area of safety evaluation of hydropower projects in the whole life cycle and the anti-seismic and anti-explosion protection of hydraulic structures. He is an expert with outstanding contributions in Tianjin. Zhang is also the leader of water conservancy major in colleges and universities. He is a member of the board of directors of the Chinese higher education society, vice chairman of the laboratory management branch of the Chinese higher education society, member of the structural reliability committee of the bridge and structure engineering branch of the Chinese civil engineering society, and vice chairman of the Tianjin hydropower society. He has conducted and is conducting about 10 research projects such as the National Natural Science Foundation of China as project principal or main researcher. Zhang has published 100 papers in leading journals, which have been tagged 60 times by SCI/EI. Dr. Zhang is the author or co-author of 5 books. He has received the Second-Grade Awards of National Science and Technology Progress of China for four times and once Top-Grade and seven times First-Grade Awards of Science and Technology Progress from ministry and province.</p>
<p>This book evaluates the seismic performance of concrete gravity dams, considering the effects of strong motion duration, mainshock-aftershock seismic sequence, and near-fault ground motion. It employs both the extended finite element method (XFEM) and concrete damaged plasticity (CDP) models to characterize the mechanical behavior of concrete gravity dams under strong ground motions, including the dam-reservoir-foundation interaction. In addition, it discusses the effects of the initial crack, earthquake direction, and cross-stream seismic excitation on the nonlinear dynamic response to strong ground motions, and on the damage-cracking risk of concrete gravity dams.</p><p>This book provides a theoretical basis for the seismic performance evaluation of high dams, and can also be used as a reference resource for researchers and graduate students engaged in the seismic design of high dams.</p>
Introduces a feasible and efficient approach for the seismic performance evaluation of concrete gravity dams Studies the nonlinear dynamic response behavior, fracture failure process, and potential failure modes of concrete gravity dams, providing insights into the damage mechanism Proposes local and global damage indices to quantitatively assess the effects of strong motion duration, mainshock-aftershock seismic sequence, and near-fault ground motion on accumulated damage of concrete gravity dams Provides valuable guidance for the seismic design and further anti-seismic improvement of concrete high dams
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