Researchers
WANG Duozhi
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Academic Title |
Professor |
Research Direction |
Structural Engineering |
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Phone |
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Fax |
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wangdz@iem.ac.cn |
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Mailing Address |
9 Xuefu Road, Harbin, 150080, China |
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Education |
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PHD. |
2006-2010 Harbin Institute of Technology, Harbin, China Civil Engineering Thesis: Failure mechanism of reticulated shells under impact |
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M.Sc. |
2004-2006 Harbin Institute of Technology, Harbin, China Civil Engineering Thesis: Study on mechanical performance of units and models design of tensegrity |
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B.Sc. |
2000-2004 Harbin Institute of Technology, Harbin, China Civil Engineering |
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Professional Experience |
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2018.7-present |
Institute of Engineering Mechanics, China Earthquake Administration Professor |
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2018.5-2019.4 |
State University of New York, at Buffalo Visiting Scholar |
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2013.1-2017.6 |
Institute of Engineering Mechanics, China Earthquake Administration Postdoctoral |
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2013.1-2018.6 |
Institute of Engineering Mechanics, China Earthquake Administration Associate Professor |
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2010.11-2012.12 |
Institute of Engineering Mechanics, China Earthquake Administration Assistant Professor |
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ResearchInterest |
Seismic performance of nonstructural components. Seismic performance of reticulated shells Seismic performance of hospital facility Failure mechanism of reticulated shells under impact Mechanical performance of units and models design of tensegrity |
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Academic Service and Activities |
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Supported Projects |
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1 |
National Key Research and Development Plan, China, Grant No 2019YFE0112700, Development of an earthquake capacity evaluation technique for functional recoverable hospital suspended non-structural elements, 12/01/2019-11/30/2023, CNY 1,130,000, Principal Investigator. |
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2 |
National Science Foundation of China, Grant No 51578515, Seismic failure mechanism and risk assessment of ceiling system for large-span space structure, 01/01/2016-12/31/2019, CNY 737,600, Principal Investigator. |
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3 |
National Science Foundation of China, Grant No 51108430, Failure mechanism and measure to defense collapse for masonry building with framed-shear walled lower floor under severe earthquake, 01/01/2012-12/31/2014, CNY 250,000, Principal Investigator. |
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4 |
Heilongjiang Human Resources and Social Security Bureau, Postdoctoral Project, LBH-Q19194, Research on Seismic Performance of Appurtenances Based on Floor Response Spectrum , 2020-01 to 2022-12, CNY 60,000, Principal Investigator. |
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5 |
Heilongjiang Human Resources and Social Security Bureau, Merit-based Project for Returned Overseas Students, None, Key Technologies for Seismic Resilience Assessment and Seismic Resistance of Urban Hospitals, 2021-01 to 2022-12, RMB 50,000, Principal Investigator. |
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Selected Publication |
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1 |
Wang, Duozhi; Zhi, Xudong; Zhu, Fangxu; Wang, Yixing ; Seismic Fragility of Chinese Light-Gauge Steel Keel Gypsum Board Partition Walls, Shock and Vibration, 2021, 2021: 0-8875486 |
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2 |
Wang D Z, Zhi X D, Fan F, et al. The energy-based failure mechanism of reticulated domes subjected to impact[J]. Thin-Walled Structures, 2017, 119:356-370. |
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3 |
Wang D Z, Dai J W, Qu Z, et al. Shake table tests of suspended ceilings to simulate the observed damage in the M_s 7.0 Lushan earthquake, China[J]. Earthquake Engineering & Engineering Vibration, 2016, 15(2):239-249. |
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4 |
Wang D Z, Dai J W, Qu Z, Ning X Q. Shaking table tests of typical b-ultrasound model hospital room in a simulation of the lushan earthquake. Bulletin of the New Zealand Society for Earthquake Engineering, 2016, 49(1): 118-121. |
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5 |
Zhi Xudong, Fan Feng, Wang Duozhi, Lin Li. Failure Mechanism of Reticulated Shells under Impact Load.Science Press, 2019 |
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6 |
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