Field measurement and numerical analysis of influence of traffic load on vibration of Shuangjingzibao ancient city wall

被引：0

作者：

Qiao X. ^{[1
]}

Liu W.-G. ^{[1
]}

Luo W.-B. ^{[2
]}

Ni W.-L. ^{[1
]}

Yang X. ^{[1
]}

Huang J.-C. ^{[1
]}

Liu J.-L. ^{[1
]}

机构：

[1] School of Civil Engineering, Lanzhou University of Technology, Lanzhou

[2] Road Construction and Maintenance Technology, Materials and Equipment R&D Center for Transportation Industry, Lanzhou

来源：

Zhendong Gongcheng Xuebao/Journal of Vibration Engineering | 2023年 / 36卷 / 03期

关键词：

ancient earth wall; elevation amplification effect; field test; numerical simulation; traffic vibration;

D O I：

10.16385/j.cnki.issn.1004-4523.2023.03.020

中图分类号：

学科分类号：

摘要：

Due to the special structural materials，long history and rich cultural connotation of ancient buildings，their dynamic response law under traffic vibration has become an important research content of ancient building safety. Aiming at the vibration elevation effect of the ancient city wall under the influence of road vehicles and the safety evaluation of the structure，based on the field test of vibration characteristics under various working conditions and the theoretical analysis of vibration elevation response mechanism，combined with the method of numerical simulation，and according to the corresponding safety criteria and allowable standards，the research is carried out. The results show that the main frequency range of vibration of the ancient city wall under the influence of road traffic load is 5~25 Hz，the vibration speed of the top of the wall is larger than that of the bottom，and the amplification coefficient of the top is 1.08~2.21. The amplification effect of vibration is mainly affected by the load and speed of vehicles. With the increase of simulated vehicle load and driving speed，the peak velocity amplification coefficient fPPV of the wall particle increases，and the vibration amplification effect is obvious，fPPV is between 1.02 and 1.77. The analysis of incremental ACI of fPPV shows that the effect of vehicle load on vibration elevation is greater than that of vehicle speed. By fitting the simulation results and the field measured data，it is found that there is a certain linear relationship between the vibration velocity at the bottom and the top of the wall under the excitation of traffic vibration. According to the field measured data and numerical simulation results，the safety of the ancient earth wall is evaluated，and the anti-vibration measures of the ancient earth wall based on the traffic management of passing vehicles are proposed. © 2023 Nanjing University of Aeronautics an Astronautics. All rights reserved.

引用

页码：776 / 788

页数：12

共 35 条

[21] GE Jiaqi, MA Botao, PANG Yutao, Et al., Whole process performance-based analysis on vibration of Humen site induced by automobile running［J］, Journal of Vibration and Shock, 33, 14, pp. 95-100, (2014)
[22] FAN Xingwei, Study on the influence of road traffic vibration on Kaifeng ancient city wall［D］, (2020)
[23] Standard for allowable vibration of building engineering：GB 50868—2013［S］, (2013)
[24] Technical specifications for protection of historic buildings against man-made vibration：GB/T 50452—2008［S］, (2008)
[25] Vibrations in civil engineering：DIN 4150—1983［S］, (1983)
[26] Hinzen K G., Subway-induced vibrations in Cologne Cathedral［J］, Seismological Research Letters, 85, 3, pp. 631-638, (2014)
[27] BAO Shihua, Structural Dynamics［M］, pp. 49-70, (2005)
[28] WANG Lei, SONG Weiyuan, LI Ji, Analysis and discussion of the whiplash effect of frames［J］, Journal of Heilongjiang Institute of Science and Technology, 14, 3, pp. 177-179, (2004)
[29] CHEN Ming, LU Wenbo, LI Peng, Et al., Elevation amplification effect of blasting vibration velocity in rock slope［J］, Chinese Journal of Rock Mechanics and Engineering, 30, 11, pp. 2189-2195, (2011)
[30] Limits of dimensions，axle load and masses of road vehicles：GB 1589—2004［S］, (2004)

← 1 2 3 4 →