Research on several key technologies of earthquake resistance and vibration control of ancient buildings

被引：0

作者：

Zheng J. ^{[1
]}

Xu J. ^{[2
]}

Qian C. ^{[1
]}

Xie Q. ^{[3
]}

Wang L. ^{[1
,3
]}

机构：

[1] China Jikan Research Institute of Engineering Investigations and Design Co., Ltd., Xi'an

[2] China National Machinery Industry Corporation, Beijing

[3] Xi'an University of Architecture and Technology, Xi'an

来源：

Tumu Gongcheng Xuebao/China Civil Engineering Journal | 2023年 / 56卷 / 01期

关键词：

ancient building; aseismic protection; key technology; non-destructive detection; vibration control;

D O I：

10.15951/j.tmgcxb.2023.01.1102

中图分类号：

学科分类号：

摘要：

As an important cultural heritage, ancient buildings have high historical, cultural and scientific values. Under a strong earthquake or a continuous traffic vibration, ancient buildings can be damaged or even failed. To study the influences of earthquake and vibration on ancient buildings and hence ensure their safety, physical model tests, numerical simulation, theoretical analysis, and in-situ test are used to develop earthquake resistance and vibration control technologies. The major contributions are as follows. The state-dependent diagnosis technology of ancient building is improved in terms of detection accuracy. Based on the understanding of aseismic and seismic failure mechanisms of timber and masonry structures respectively, the technology is proposed to improve the performance of ancient buildings subjected to earthquake. The permissible vibration of ancient building is elaborated. The prediction method of vibration response and the multi-level vibration control method are established. The results in this study could 丨)rovide scientific reference for the subsequent explorations on the earthquake resistance and vibration control of ancient buildings. © 2023 Editorial Office of China Civil Engineering Journal. All rights reserved.

引用

页码：1 / 17

页数：16

共 46 条

[1] Zhou Qian, Yan Weiming, Yang Xiaosen, Et al., Damage of ancient Chinese architecture caused by the Wenchuan Earthquake [ J ], Sciences of Conservation and Archaeology, 22, 1, pp. 37-45, (2010)
[2] Pan Yi, Tang Lina, Wang Huiqin, Et al., Investigation and analysis of damage to ancient buildings in Lushan Ma 1. 0 earthquake [ J ], Earthquake Engineering and Engineering Dynamics, 34, 1, pp. 140-146, (2014)
[3] Zhang Tiezhu, Zhou Zhanxue, Analysis and investigation on seismic damage of ancient buildings in Nepal earthquake [ J ], Journal of Hebei Institute of Architecture and Civil Engineering, 34, 3, pp. 38-43, (2016)
[4] Bata M., Effects on buildings of vibrations caused by traffic, Building Science, 6, 4, pp. 221-246, (1971)
[5] Clemente P, Rinaldis D., Protection of a monumental building against traffic-induced vibrations, Soil Dynamics and Earthquake Engineering, 17, 5, pp. 289-296, (1998)
[6] He Xiangdong, Lei Jun, Chen Qifu, Et al., Study on the attenuation lows of vibration metro under the condition of the quaternary deposit [ C], Proceedings of the 25th Chinese Geophysics, (2009)
[7] Zhou Qian, Yan Weiming, Yang Na, Et al., Experimental investigation of seismic performance of single layer gable and hip roof type of Chinese ancient building under high intensity earthquake [ J ], China Civil Engineering Journal, 51, SI, pp. 32-36, (2018)
[8] Xue Jianyang, Xu Dan, Ren Guoqi, Et al., Shake table test on seismic performance of column and tie wooden structure in traditional residence [ J ], China Civil Engineering Journal, 52, 12, pp. 1-10, (2019)
[9] Yuan Jianli, Study on corresponding relation between seismic intensity and damage degree of ancient masonry pagodas [ J ], Journal of Earthquake Engineering and Engineering Vibration, 33, 2, pp. 163-167, (2013)
[10] Pan Yi, Li Lingjiao, Yao Yunyi, Et al., Evaluation methods for post-earthquake damage state of ancient masonry buildings [ J ], Journal of Southwest Jiaotong University, 51, 4, pp. 704-713, (2016)

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