基于力控制AMD的振动台子结构试验仿真研究
Simulation Study of Shaking Table Substructure Test Based on Force Controlled AMD Device
DOI: 10.12677/DSC.2018.72015, PDF,    国家自然科学基金支持
作者: 丛鹏里, 纪金豹:北京工业大学工程抗震与结构诊治北京市重点实验室,北京
关键词: 实时子结构试验振动台试验AMD力控制Real-Time Substructure Test Shaking Table Test Active Mass Driver Force Control
摘要: 针对实时子结构试验加载方式复杂,控制精度低的问题,本文提出通过AMD装置进行加载实现数值子结构与试验子结构的界面力相容条件,降低试验造价,简化加载方式。通过力反馈进行高精度控制,提高试验的针对性和研究效率。分析与模拟的结果都表明,对于所提出的基于AMD力控制的振动台子结构试验方法具有可行性与有效性。
Abstract: Aiming at the problem of complex loading mode and low control precision in real time substructure test, this paper puts forward the interface force compatibility condition of numerical substructure and experimental substructure by AMD device, which can reduce the test cost and simplify the loading mode. High precision control is carried out by force feedback to improve the pertinence and research efficiency of the experiment. The results of analysis and simulation show that the proposed method of substructure test based on AMD force control is feasible and effective.
文章引用:丛鹏里, 纪金豹. 基于力控制AMD的振动台子结构试验仿真研究[J]. 动力系统与控制, 2018, 7(2): 135-145. https://doi.org/10.12677/DSC.2018.72015

参考文献

[1] Nakata, N. and Stehman, M. (2012) Substructure Shake Table Test Method Using a Controlled Mass: Formulation and Numerical Simulation. Earthquake Engineering & Structural Dynamics, 41, 1977-1988.
[Google Scholar] [CrossRef
[2] Takanashi, K. and Nakashima, M. (1987) Japanese Activities On On-Line Testing. Journal of Engineering Mechanics, 113, 1014-1032.
[Google Scholar] [CrossRef
[3] 李振宝, 李晓亮, 唐贞云, 等. 基于振动台的动力子结构试验界面反力获取方法[J]. 地震工程与工程振动, 2011(3): 65-70.
[4] 周大兴, 闫维明, 陈彦江, 等. 考虑土–结构相互作用的振动台实时子结构试验仿真分析[J]. 震灾防技术, 2010(1): 27-31.
[5] 王倩颖, 吴斌, 欧进萍. 应用MTS-Schenk系统的实时子结构实验: 2005年全国博士生学术论坛(土木建筑学科) [Z]. 中国南京: 20053.
[6] Shao, X. and Enyart, G. (2014) Development of a Versatile Hybrid Testing System for Seismic Ex-perimentation. Experimental Techniques, 38, 44-60.
[Google Scholar] [CrossRef
[7] Saouma, V., Haussmann, G., Kang, D., et al. (2014) Re-al-Time Hybrid Simulation of a Nonductile Reinforced Concrete Frame. Journal of Structural Engineering, 140.
[Google Scholar] [CrossRef
[8] Lindt, J.W.V.D., Bahmani, P., Pryor, S.E., et al. (2015) Overview of the NEES-Soft Experimental Program for Seismic Risk Reduction of Soft-Story Woodframe Buildings. Structures Congress, 2875-2885.
[9] Nakata, N. and Stehman, M. (2014) Substructure Shake Table Testing with Force Controlled Actuators. Structures Congress, 1197-1208.
[Google Scholar] [CrossRef
[10] Nakashima, M., Kato, H. and Takaoka, E. (1992) Development of Real-Time Pseudo Dynamic Testing. Earthquake Engineering & Structural Dynamics, 21, 79-92.
[Google Scholar] [CrossRef
[11] 周惠蒙, 吴斌, 谭晓晶, 等. 调谐液体阻尼器的振动台子结构试验研究[J]. 土木工程学报, 2014(S1).
[12] 徐景锋. 考虑SSI效应储油罐抗震性能振动台子结构实验研究[D]. 哈尔滨工业大学, 2013.
[13] 周惠蒙, 吴斌. TLD振动台子结构试验的数值仿真分析[J]. 震灾防御技术, 2010(1): 9-19.

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