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Vibration attenuation performance of wind turbine tower using a prestressed tuned mass damper under seismic excitation
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作者 Lei Zhenbo Liu Gang +1 位作者 Wang Hui Hui Yi 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2024年第2期511-524,共14页
With the rapid development of large megawatt wind turbines,the operation environment of wind turbine towers(WTTs)has become increasingly complex.In particular,seismic excitation can create a resonance response and cau... With the rapid development of large megawatt wind turbines,the operation environment of wind turbine towers(WTTs)has become increasingly complex.In particular,seismic excitation can create a resonance response and cause excessive vibration of the WTT.To investigate the vibration attenuation performance of the WTT under seismic excitations,a novel passive vibration control device,called a prestressed tuned mass damper(PS-TMD),is presented in this study.First,a mathematical model is established based on structural dynamics under seismic excitation.Then,the mathematical analytical expression of the dynamic coefficient is deduced,and the parameter design method is obtained by system tuning optimization.Next,based on a theoretical analysis and parameter design,the numerical results showed that the PS-TMD was able to effectively mitigate the resonance under the harmonic basal acceleration.Finally,the time-history analysis method is used to verify the effectiveness of the traditional pendulum tuned mass damper(PTMD)and the novel PS-TMD device,and the results indicate that the vibration attenuation performance of the PS-TMD is better than the PTMD.In addition,the PS-TMD avoids the nonlinear effect due to the large oscillation angle,and has the potential to dissipate hysteretic energy under seismic excitation. 展开更多
关键词 wind turbine tower prestressed tuned mass damper vibration control seismic excitation numerical simulation
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Research on the random seismic response analysis for multi- and large-span structures to multi-support excitations 被引量:3
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作者 Zhao Bo Wang Yuanqing +3 位作者 Chen Zhihua Shi Yongjiu Jiang Yang Wang Yihong 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2015年第3期527-538,共12页
The pseudo excitation method(PEM) has been improved into a more practical form,on which the analytic formulae of seismic response power spectral density(PSD) of simplified large-span structural models have been derive... The pseudo excitation method(PEM) has been improved into a more practical form,on which the analytic formulae of seismic response power spectral density(PSD) of simplified large-span structural models have been derived.The analytic formulae and numerical computing results of seismic response PSD have been derived to study the mechanism of multi-support excitation effects,such as the wave-passage effect and incoherence effect,for the seismic response of multiand large-span structures.By using a multi-span truss as an example,the influence of multi-support excitation effects on the seismic response of such structures is studied. 展开更多
关键词 random seismic response multi-support excitations
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Nonlinear anisotropic finite element analysis of liquefiable tunnel–sand–pile interaction under seismic excitation
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作者 Md.Foisal Haque 《Deep Underground Science and Engineering》 2023年第3期275-285,共11页
Nonlinear time‐history analysis can be used to determine the liquefiable behaviors of the tunnel-sand-pile interaction(TSPI)model with the consideration of sand anisotropy.This study presents the nonlinear response o... Nonlinear time‐history analysis can be used to determine the liquefiable behaviors of the tunnel-sand-pile interaction(TSPI)model with the consideration of sand anisotropy.This study presents the nonlinear response of the TSPI model with the existence of liquefaction under seismic excitation.The analysis reveals that tunnel and pile behave as isotropic elements,while sand shows isotropic,orthotropic,and anisotropic characteristics.Three constitutive models including UBC3D‐PLM(two yield surfaces associated with the hardening rule),NGI‐ADP(yielding with associated plastic potential function),and a user‐specified constitutive model are adopted to evaluate the isotropic,orthotropic,and anisotropic behaviors of sand.On this basis,two finite element‐based codes(ETABS 18.1.1 and Plaxis 3D)are used to evaluate sand behaviors and responses.Responses of the tunnel,sand,pile,and excess pore pressure ratio are recorded in the interaction zone by varying the pile diameter,tunnel diameter,and tunnel-pile clearance.Compared with the orthotropic and isotropic conditions,lower variations of results are found in the anisotropic condition,except for the case of generation of excess pore pressure.In addition,the present reanalysis results are in agreement with previous analytical and case study results,which further indicates the effectiveness of the finite element‐based numerical codes. 展开更多
关键词 anisotropy finite element LIQUEFACTION NONLINEAR seismic excitation tunnel-sand-pile interaction
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Elastic Dynamic Stability of Big-Span Power Transmission Tower Subjected to Seismic Excitations
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作者 张行 李黎 +1 位作者 方秦汉 叶昆 《Journal of Southwest Jiaotong University(English Edition)》 2009年第1期65-71,共7页
By combining the time-history response analysis and the eigenvalue buckling analysis, this paper developed a computational procedure to study the elastic dynamic stability of a transmission tower by APDL language in A... By combining the time-history response analysis and the eigenvalue buckling analysis, this paper developed a computational procedure to study the elastic dynamic stability of a transmission tower by APDL language in ANSYS. The influences of different input directions of seismic excitations and damping ratio on the elastic dynamic stability of tower were discussed. The following conclusions were obtained: ( 1 ) Longitudinal direction of the transmission lines is the worst input direction of seismic excitation for the transmission tower. (2) Dead load has no significant effect on the critical load and the occurrence time of buckling. (3) Vertical input of seismic excitations has no great effect on the dynamic stability of the transmission tower. (4) Damping effect has an influence on the dynamic stability of the transmission tower; however, the inherent characteristics of dynamic buckling is not changed. 展开更多
关键词 Transmission tower seismic excitation Elastic dynamic stability Big span
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Shaking table test and numerical simulation of an isolated cylindrical latticed shell under multiple-support excitations 被引量:6
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作者 Xue Suduo Shan Mingyue +3 位作者 Li Xiongyan Liang Shuanzhu Huang Fuyun Liu Yi 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2019年第3期611-630,共20页
In order to study the infl uence of the ground motion spatial eff ect on the seismic response of large span spatial structures with isolation bearings, a single-layer cylindrical latticed shell scale model with a simi... In order to study the infl uence of the ground motion spatial eff ect on the seismic response of large span spatial structures with isolation bearings, a single-layer cylindrical latticed shell scale model with a similarity ratio of 1/10 was constructed. An earthquake simulation shaking table test on the response under multiple-support excitations was performed with the high-position seismic isolation method using high damping rubber (HDR) bearings. Small-amplitude sinusoidal waves and seismic wave records with various spectral characteristics were applied to the model. The dynamic characteristics of the model and the seismic isolation eff ect on it were analyzed at varying apparent wave velocities, namely infi nitely great, 1000 m/s, 500 m/s and 250 m/s. Besides, numerical simulations were carried out by Matlab software. According to the comparison results, the numerical results agreed well with the experimental data. Moreover, the results showed that the latticed shell roof exhibited a translational motion as a rigid body after the installation of the HDR bearings with a much lower natural frequency, higher damping ratio and only 1/2~1/8 of the acceleration response peak values. Meanwhile, the structural responses and the bearing deformations at the output end of the seismic waves were greatly increased under multiple-support excitations. 展开更多
关键词 SINGLE-LAYER CYLINDRICAL latticed shell HDR bearings seismic isolation multiple-support excitations SHAKING table test
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Performance evaluation of a novel rotational damper for structural reinforcement steel frames subjected to lateral excitations 被引量:7
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作者 M.Sanati S.E.Khadem +2 位作者 S.Mirzabagheri H.Sanati M.Y.Khosravieh 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2014年第1期75-84,共10页
In this study,a novel rotational damper called a Rotational Friction Viscoelastic Damper(RFVD) is introduced.Some viscoelastic pads are added to the Rotational Friction Damper(RFD) in addition to the friction discs us... In this study,a novel rotational damper called a Rotational Friction Viscoelastic Damper(RFVD) is introduced.Some viscoelastic pads are added to the Rotational Friction Damper(RFD) in addition to the friction discs used in this conventional device.Consequently,the amount of energy dissipated by the damper increases in low excitation frequencies.In fact,the input energy to the structure is simultaneously dissipated in the form of friction and heat by frictional discs and viscoelastic pads.In order to compare the performance of this novel damper with the earlier types,a set of experiments were carried out.According to the test results,the RFVD showed a better performance in dissipating input energy to the structure when compared to the RFD.The seismic behavior of steel frames equipped with these dampers was also numerically evaluated based on a nonlinear time history analysis.The numerical results verifi ed the performance of the dampers in increasing the energy dissipation and decreasing the energy input to the structural elements.In order to achieve the maximum dissipated energy,the dampers need to be installed in certain places called critical points in the structure.An appropriate approach is presented to properly fi nd these points.Finally,the performance of the RFVDs installed at these critical points was investigated in comparison to some other confi gurations and the validity of the suggested method in increasing the energy dissipation was confi rmed. 展开更多
关键词 seismic excitations rotational friction-viscoelastic damper rotational damper friction pad viscoelastic material energy dissipation
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Earthquake simulation test of circular reinforced concrete bridge column under multidirectional seismic excitation 被引量:4
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作者 Junichi Sakai Shigeki Unjoh 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2006年第1期103-110,共8页
Structures behave multi-directionally when subjected to earthquake excitation. Thus, it is essential to evaluate the effect of multidirectional loading on the dynamic response and seismic performance of reinforced con... Structures behave multi-directionally when subjected to earthquake excitation. Thus, it is essential to evaluate the effect of multidirectional loading on the dynamic response and seismic performance of reinforced concrete bridge columns in order to develop more advanced and reliable design procedures. To investigate such effects, a 1/4 scaled circular reinforced concrete bridge column specimen was tested under two horizontal and one vertical components of a strong motion that has long duration with several strong pulses. Damage progress of reinforced concrete columns subjected to strong excitation was evaluated from the test. The test results demonstrate that the lateral force response in the principal directions become smaller than computed flexural capacity due to the bilateral flexural loading effects, and that the lateral response is not significantly affected by the fluctuation of the axial force because the horizontal response and axial force barely reached the maximum simultaneously due to difference of the predominant natural periods between the vertical and the horizontal directions. Accuracy of fiber analyses is discussed using the test results. 展开更多
关键词 multidirectional seismic excitation reinforced concrete bridge columns shake table test nonlinear dynamic analyses fiber analysis
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Effects of vertical excitation on the seismic performance of a seismically isolated bridge with sliding friction bearings 被引量:2
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作者 Wang Changfeng Zhao Jikang +1 位作者 Zhu Long Bao Yijun 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2016年第1期187-196,共10页
A finite element model is constructed for a sliding friction bearing in a seismically isolated bridge under vertical excitation with contact/friction elements. The effects of vertical excitation on the seismic perform... A finite element model is constructed for a sliding friction bearing in a seismically isolated bridge under vertical excitation with contact/friction elements. The effects of vertical excitation on the seismic performance of a seismically isolated bridge with sliding friction bearings and different bearing friction coefficients and different stiffness levels (pier diameter) are discussed using example calculations, and the effects of excitation direction for vertical excitation on the analysis results are explored. The analysis results shows that vertical excitation has a relatively large impact on seismic performance for a seismically isolated bridge with sliding friction bearings, which should be considered when designing a seismically isolated bridge with sliding friction bearings where vertical excitation dominates. 展开更多
关键词 vertical excitation seismically isolated bridge sliding friction bearing seismic analysis
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Response of train-bridge system under intensive seismic excitation by random vibration method 被引量:2
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作者 WU Zhao-zhi ZHANG Nan 《Journal of Central South University》 SCIE EI CAS CSCD 2022年第8期2467-2484,共18页
Earthquake is a kind of sudden and destructive random excitation in nature.It is significant to determine the probability distribution characteristics of the corresponding dynamic indicators to ensure the safety and t... Earthquake is a kind of sudden and destructive random excitation in nature.It is significant to determine the probability distribution characteristics of the corresponding dynamic indicators to ensure the safety and the stability of structures when the intensive seismic excitation,the intensity of which is larger than 7,acts in train-bridge system.Firstly,the motion equations of a two-dimensional train-bridge system under the vertical random excitation of track irregularity and the vertical seismic acceleration are established,where the train subsystem is composed of 8 mutually independent vehicle elements with 48 degrees of freedom,while the single-span simple supported bridge subsystem is composed of 102D beam elements with 20 degrees of freedom on beam and 2 large mass degrees of freedom at the support.Secondly,Monte Carlo method and pseudo excitation method are adopted to analyze the statistical parameters of the system.The power spectrum density of random excitation is used to define a series of non-stationary pseudo excitation in pseudo excitation method and the trigonometric series of random vibration history samples in Monte Carlo method,respectively solved by precise integral method and Newmark-βmethod through the inter-system iterative procedure.Finally,the results are compared with the case under the weak seismic excitation,and show that the samples of vertical acceleration response of bridge and the offload factor of train obeys the normal distribution.In a high probability,the intensive earthquakes pose a greater threat to the safety and stability of bridges and trains than the weak ones. 展开更多
关键词 random vibration method intensive seismic excitation train-bridge system probability distribution inter system iteration precise integral method
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Closure to“Discussion on‘Optimum placement and characteristics of velocity-dependent dampers under seismic excitation' by SA Mousavi and AK Ghorbani-Tanha”by Izuru Takewaki 被引量:1
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作者 Seyed Amin Mousavi Amir K.Ghorbani-Tanha 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2013年第4期681-682,共2页
The authors would like to thank the discusser for his considerations and comments. The discusser believes that some of the derived formulations need to be referred to his previously published works and also some relat... The authors would like to thank the discusser for his considerations and comments. The discusser believes that some of the derived formulations need to be referred to his previously published works and also some related studies have not been cited. 展开更多
关键词 Optimum placement and characteristics of velocity-dependent dampers under seismic excitation by SA Mousavi and AK Ghorbani-Tanha Closure to
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Impact of seismic excitation characteristics on the efficiency of tuned liquid column dampers
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作者 Ali Kavand S. Mehdi Zahrai 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2006年第2期235-243,共9页
Various types of passive control systems have been used to suppress the seismic response of structures in recent years. Among these systems, Tuned Liquid Column Dampers (TLCDs) dissipate the input earthquake energy ... Various types of passive control systems have been used to suppress the seismic response of structures in recent years. Among these systems, Tuned Liquid Column Dampers (TLCDs) dissipate the input earthquake energy by combining the effects of the movement of the liquid mass in the container, the restoring force on the liquid due to the gravity loads and the damping due to the liquid movement through orifices. In this study, the effects of seismic excitation characteristics such as frequency content and soil condition on the seismic performance of TLCDs are investigated using nonlinear time-history analyses. In this regard, among the past earthquake ground motion records of Iran, 16 records with different parameters were selected. In the structural model developed, the attached TLCD is simulated as a Tuned Mass Damper (TMD) having the same vibration period and damping ratio as the original TLCD. The numerical results show that the seismic excitation characteristics have a substantial role on the displacement reduction capability of TLCDs and they should be considered accordingly in the design of TLCDs. 展开更多
关键词 passive control tuned liquid column dampers seismic excitation characteristics frequency content subsoilconditions seismic performance
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Seismic response of the long-span steel truss arch bridge with the thrust under multidimensional excitation 被引量:1
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作者 Yongliang Zhang Jibei Ma +1 位作者 Xingchong Chen Yun Wang 《Railway Sciences》 2022年第1期40-55,共16页
Purpose–Under different ground motion excitation modes,the spatial coupling effect of seismic response for the arch bridge with thrust,seismic weak parts and the internal force components of the control section of ma... Purpose–Under different ground motion excitation modes,the spatial coupling effect of seismic response for the arch bridge with thrust,seismic weak parts and the internal force components of the control section of main arch ribs are analyzed.Design/methodology/approach–Taking a 490 m deck type railway steel truss arch bridge as the background,the dynamic calculation model of the whole bridge was established by SAP2000 software.The seismic response analyses under one-,two-and three-dimension(1D,2D and 3D)uniform ground motion excitations were carried out.Findings–For the steel truss arch bridge composed of multiple arch ribs,any single direction ground motion excitation will cause large axial force in the chord of arch rib.The axial force caused by transverse and vertical ground motion excitation in the chord of arch crown area is 1.4–3.6 times of the corresponding axial force under longitudinal seismic excitation.The in-plane bending moment caused by the lower chord at the vault is 4.2–5.5 times of the corresponding bending moment under the longitudinal seismic excitation.For the bottom chord of arch rib,the arch foot is the weak part of earthquake resistance,but for the upper chord of arch rib,the arch foot,arch crown and the intersection of column and upper chord can all be the potential earthquake-resistant weak parts.The normal stress of the bottom chord of the arch rib under multidimensional excitation is mainly caused by the axial force,but the normal stress of the upper chord of the arch rib is caused by the axial force,in-plane and out of plane bending moment.Originality/value–The research provides specific suggestions for ground motion excitation mode and also provides reference information for the earthquake-resistant weak part and seismic design of long-span deck type railway steel truss arch bridges. 展开更多
关键词 Railway steel truss arch bridge seismic response Multidimensional excitation Spatial coupling effect Internal force component
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Wavelet-Based Response Computation for Base-Isolated Structure under Seismic Excitation
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作者 Wensheng Ding Zhi Sun 《Journal of Applied Mathematics and Physics》 2014年第5期163-169,共7页
This paper presents a wavelet-based approach for estimating the response of the base-isolated structure under seismic ground motions. The seismic ground motion record is expressed as the multi-scale wavelet coefficien... This paper presents a wavelet-based approach for estimating the response of the base-isolated structure under seismic ground motions. The seismic ground motion record is expressed as the multi-scale wavelet coefficients which presents the time frequency characteristics of the seismic excitation. The wavelet domain governing differential equation between the wavelet coefficients of the excitation and response is derived. Numerical study on a one-storey base isolated structure is performed. The result shows that the wavelet based response computation method is of high precision. 展开更多
关键词 WAVELET TRANSFORM seismic excitATION TIME-FREQUENCY Characteristic Input-Response Relationship WAVELET Basis
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Discussion on “Optimum placement and characteristics of velocity-dependent dampers under seismic excitation” by Seyed Amin Mousavi and Amir K. Ghorbani-Tanha
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作者 Izuru Takewaki 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2013年第3期501-501,共1页
The authors presented an interesting aspect in viscous or visco-elastic damper optimization under earthquake excitation. They also reviewed the research development in the field of passive damper optimization.
关键词 Ghorbani-Tanha by Seyed Amin Mousavi and Amir K Optimum placement and characteristics of velocity-dependent dampers under seismic excitation
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Generation of endurance time excitation functions using spectral representation method
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作者 Parsa Parvanehro Mohammad Safi 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2023年第2期441-452,共12页
In this study,application of the spectral representation method for generation of endurance time excitation functions is introduced.Using this method,the intensifying acceleration time series is generated so that its ... In this study,application of the spectral representation method for generation of endurance time excitation functions is introduced.Using this method,the intensifying acceleration time series is generated so that its acceleration response spectrum in any desired time duration is compatible with a time-scaled predefined acceleration response spectrum.For this purpose,simulated stationary acceleration time series is multiplied by the time dependent linear modulation function,then using a simple iterative scheme,it is forced to match a target acceleration response spectrum.It is shown that the generated samples have excellent conformity in low frequency,which is useful for nonlinear endurance time analysis.In the second part of this study,it is shown that this procedure can be extended to generate a set of spatially correlated endurance time excitation functions.This makes it possible to assess the performance of long structures under multi-support seismic excitation using endurance time analysis. 展开更多
关键词 endurance time analysis endurance time excitation functions spatial variation of seismic ground motions multi-support excitation spectral representation method
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不同地震激励方向下隔震曲线梁桥易损性分析
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作者 李喜梅 蒲奎 +1 位作者 杨国俊 母渤海 《地震工程学报》 CSCD 北大核心 2024年第1期26-38,共13页
为进一步评估隔震曲线梁桥在地震激励下的抗震性能,从地震易损性角度出发并兼顾考虑地震激励方向对其易损性的影响。利用APDL建立采用板式橡胶支座的隔震曲线梁桥有限元模型,从PEER中选取同一地震事件中的近断层地震动,按规范规定比例... 为进一步评估隔震曲线梁桥在地震激励下的抗震性能,从地震易损性角度出发并兼顾考虑地震激励方向对其易损性的影响。利用APDL建立采用板式橡胶支座的隔震曲线梁桥有限元模型,从PEER中选取同一地震事件中的近断层地震动,按规范规定比例输入水平双向地震动进行非线性动力时程分析,结合地震响应与损伤指标计算得到各构件地震易损性曲线;考虑地震激励方向的变化,通过MATLAB编程绘制得到桥梁结构构件(桥墩与支座)以及整体系统的地震易损性曲面,分析探讨地震激励方向对隔震曲线梁桥易损性的影响。结果表明:不同极限状态下各桥墩切向损伤条件概率明显大于其径向,各支座的切向与径向易损性相差不大,但仍是各支座的切向易损性略大于径向易损性;桥梁各构件(桥墩与支座)切向易损性对地震激励方向均表现出很强依赖性,而径向易损性对其的依赖性相对较弱,且伴随损伤等级的提高,构件易损性对地震激励方向更加敏感;桥梁整体系统易损性对地震激励方向的变化不太敏感,且因各构件响应之间的相关性较高,其系统易损性更接近于易损性最大的构件——易损性下限;当进行隔震曲线梁桥抗震性能评估时,应考虑不同地震激励方向对其地震易损性的影响,从而使得易损性分析结果更加合理,能够更加真实地反映隔震曲线梁桥的实际损伤状态。 展开更多
关键词 隔震曲线梁桥 抗震性能 地震激励方向 易损性曲面
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双向地震下博物馆滑移型文物的易损性评估
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作者 刘佩 惠大城 薛雯 《振动与冲击》 EI CSCD 北大核心 2024年第21期163-173,共11页
为科学开展博物馆滑移型文物的防震预防性保护工作,亟需对其地震风险进行量化评估。为解决风险评估的核心问题,提出了双水平向地震作用下博物馆滑移型文物的易损性评估方法,主要步骤为:考虑结构及浮放界面摩擦行为的非线性,构建博物馆-... 为科学开展博物馆滑移型文物的防震预防性保护工作,亟需对其地震风险进行量化评估。为解决风险评估的核心问题,提出了双水平向地震作用下博物馆滑移型文物的易损性评估方法,主要步骤为:考虑结构及浮放界面摩擦行为的非线性,构建博物馆-展柜-文物系统三维非线性有限元模型;将双向谱加速度和文物滑移量的最大均方根值分别作为地震动强度指标和工程需求参数,开展增量动力分析;建立文物滑移的概率地震需求模型及易损性函数。开展了代表典型滑移型文物的浮放物体在双向地震激励下的振动台试验,并结合单向地震激励下的理论滑移运动方程,对模拟滑移的有限元模型的正确性进行了验证;对所采用的地震动强度指标的有效性和充分性进行了检验,分析了固定和浮放展柜、所处楼层、滑移限值、单向和双向地震作用、基础隔震等因素对某四层框架结构博物馆中滑移型文物易损性的影响。结果表明:对于隔震结构及滑移限值取较小值时的非隔震结构,文物的滑移易损性对所处楼层不敏感,而对于滑移限值取较大值时的非隔震结构,则随楼层的升高而增大;非隔震结构内部浮放展柜中文物的滑移易损性低于固定展柜的情况,而隔震结构内部浮放和固定展柜中文物的滑移易损性十分接近;双向地震作用下文物的滑移易损性大于单向地震作用。 展开更多
关键词 双向地震作用 地震易损性 增量动力分析 滑移运动 博物馆-展柜-文物系统
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苏北盆地溱潼凹陷高密度三维地震与效果
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作者 薛野 赵苏城 +1 位作者 龚屹 蓝加达 《中国科技论文》 CAS 2024年第5期529-539,共11页
高精度三维地震已不能满足当前溱潼凹陷复杂、隐蔽化的小尺度油藏勘探开发需求。2022年,在溱潼凹陷帅垛西地区部署实施高密度三维地震,采用小面元、宽方位、高覆盖次数、高道密度、适中炮点密度的观测系统方式,基于精细表层调查与优势... 高精度三维地震已不能满足当前溱潼凹陷复杂、隐蔽化的小尺度油藏勘探开发需求。2022年,在溱潼凹陷帅垛西地区部署实施高密度三维地震,采用小面元、宽方位、高覆盖次数、高道密度、适中炮点密度的观测系统方式,基于精细表层调查与优势岩性激发、单点宽频接收技术,高清航测影像、全节点无缆接收、背景噪声有缆监控等地震采集技术,提高地下反射波场采样充分性,加强低频信息采集,实现复杂地表高密度地震高效、高质量施工;应用高保真面波压制、多域逐级提高分辨率、全方位成像处理技术,成像剖面分辨率、频带宽度、信噪比、深层及层间内幕反射资料品质有较大提高;对中国东部水网城镇地表新生代断陷盆地高质量地震勘探具有积极的借鉴意义。 展开更多
关键词 溱潼凹陷 高密度三维地震 数据采集 激发接收 全方位高保真处理
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地震作用下双层土质边坡稳定性上限分析
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作者 刘杰 杨轶博 +1 位作者 郭督 马志宏 《沈阳大学学报(自然科学版)》 CAS 2024年第3期237-245,共9页
为探究地震作用对双层土质边坡稳定性的影响,基于极限分析上限理论,建立了地震作用下双层土质边坡旋转破坏机构。采用拟静力法简化地震荷载作用,推导了双层土质边坡安全系数表达式。分析土体黏聚力比、边坡坡角以及地震作用对双层土质... 为探究地震作用对双层土质边坡稳定性的影响,基于极限分析上限理论,建立了地震作用下双层土质边坡旋转破坏机构。采用拟静力法简化地震荷载作用,推导了双层土质边坡安全系数表达式。分析土体黏聚力比、边坡坡角以及地震作用对双层土质边坡稳定性及其滑动面参数的影响。研究结果表明:在水平地震作用下,随着黏聚力比的增大,边坡安全系数呈非线性增大且潜在滑动面变浅;当水平地震作用增强时,边坡失稳破坏范围显著加大;随着竖向地震系数及黏聚力比的增大,边坡安全系数略微降低;水平地震作用增强时,竖向地震作用对边坡稳定性的影响逐渐增大,此时需要考虑竖向地震的影响。 展开更多
关键词 地震作用 极限分析上限理论 双层土质边坡 拟静力法 安全系数
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基于绝对位移法的曲线梁桥多维多点弹塑性随机响应分析
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作者 李喜梅 赵廷龙 陶铖 《振动与冲击》 EI CSCD 北大核心 2024年第10期164-173,共10页
针对当前地震动空间效应下曲线梁桥地震反应分析多采用确定性激励输入且忽略桥梁非线性的情况,采用了多维多点非平稳随机激励对曲线连续梁桥进行弹塑性响应分析。建立非线性有限元模型并降维解耦非平稳地震动非平稳演化功率谱(energy po... 针对当前地震动空间效应下曲线梁桥地震反应分析多采用确定性激励输入且忽略桥梁非线性的情况,采用了多维多点非平稳随机激励对曲线连续梁桥进行弹塑性响应分析。建立非线性有限元模型并降维解耦非平稳地震动非平稳演化功率谱(energy power spectral density,EPSD)矩阵,采用绝对位移法对桥梁进行非线性时程分析。考虑不同视波速、场地条件、相干性以及平稳与非平稳地震激励,综合分析了曲线连续梁桥的随机响应及其频域特性和时域特性。结果表明,地震动空间效应和地震动的非平稳性对曲线梁桥随机响应影响很大,其中地震动空间效应对桥梁随机响应大小及其频域分布有显著影响,而非平稳性会对随机响应大小及其时变响应趋势产生重要影响。因此,在曲线连续梁桥抗震分析中需充分考虑地震动空间效应和地震动非平稳性,以避免错误估计桥梁抗震性能。提供了全面的分析结果,对加强曲线连续梁桥的抗震设计和评估,从而提高其抗震性能和可靠性具有重要意义。 展开更多
关键词 曲线连续梁桥 多维多点 虚拟激励法 非平稳激励 绝对位移 非线性 地震动空间效应
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