劉家峽懸索橋地震反應(yīng)分析及減震措施研究
發(fā)布時(shí)間:2018-10-10 18:46
【摘要】:近些年來,隨著我國在基礎(chǔ)設(shè)施建設(shè)方面的快速發(fā)展,所修建的橋梁結(jié)構(gòu)的數(shù)量大幅增加,橋梁結(jié)構(gòu)形式也因?yàn)槊烙^上的要求多種多樣,而懸索橋這種古老的橋型,卻始終煥發(fā)著旺盛的生命力。 地震作用下,橋梁結(jié)構(gòu)經(jīng)常遭到破壞,給人們的通行以及救災(zāi)造成很大的不便,所以對結(jié)構(gòu)進(jìn)行地震反應(yīng)分析,并根據(jù)分析結(jié)果采取抗震或者減隔震措施顯得非常必要。 本文以劉家峽懸索橋?yàn)楣こ瘫尘,利用有限元分析軟件MIDAS/CIVIL建立全橋模型,分析其動(dòng)力特性,計(jì)算其地震反應(yīng),并根據(jù)地震反應(yīng)結(jié)果采取減震措施并對減震效果進(jìn)行評價(jià)和對比。具體主要工作內(nèi)容如下: (1)查閱文獻(xiàn),對在地震荷載作用下橋梁結(jié)構(gòu)遭到的破壞形式進(jìn)行分析,發(fā)現(xiàn)在結(jié)構(gòu)的破壞過程中,支座往往最先遭到破壞,作為連接橋梁上、下部結(jié)構(gòu)的重要部分,它的破壞會(huì)造成上部結(jié)構(gòu)的滑移、脫落以及傾覆,上部結(jié)構(gòu)的脫落和傾覆又會(huì)造成下部結(jié)構(gòu)的破壞。 (2)利用有限元分析軟件MIDAS/CIVIL建立了劉家峽懸索橋的動(dòng)力分析有限元模型,在建立基礎(chǔ)模型的過程中,考慮到樁基與土的相互作用,本文利用彈性地基梁法,模擬樁—土效應(yīng)。建立整體模型后,對其進(jìn)行自振特性分析,為后面的地震反應(yīng)分析做準(zhǔn)備。 (3)根據(jù)橋址區(qū)地質(zhì)條件以及抗震要求,確定要輸入到橋梁結(jié)構(gòu)中的反應(yīng)譜函數(shù),然后對模型進(jìn)行反應(yīng)譜分析,分析過程中考慮結(jié)構(gòu)在不同輸入方向下的地震反應(yīng)。 (4)根據(jù)場地周期以及地質(zhì)條件等,確定三組不同的經(jīng)典地震波作為輸入到結(jié)構(gòu)中的地震荷載,對這三組波進(jìn)行調(diào)整,使其符合擬建場地的要求,然后求解結(jié)構(gòu)在該三組波作用下的地震反應(yīng),并對其進(jìn)行分析。 (5)根據(jù)地震反應(yīng)結(jié)果,本文決定給結(jié)構(gòu)添加液體粘滯阻尼器作為減震措施。根據(jù)文獻(xiàn)和資料,確定適合結(jié)構(gòu)的粘滯阻尼器,,對其阻尼系數(shù)、阻尼指數(shù)等技術(shù)參數(shù)進(jìn)行分析。并將這些參數(shù)輸入到橋梁結(jié)構(gòu)的有限元模型中。 (6)給結(jié)構(gòu)添加粘滯阻尼器后,對其進(jìn)行地震反應(yīng)分析,得出結(jié)構(gòu)在添加減震措施后,結(jié)構(gòu)的內(nèi)力值和位移值,并將該值與未添加減震措施時(shí)的結(jié)構(gòu)地震反應(yīng)值進(jìn)行對比。 (7)經(jīng)對比可知,結(jié)構(gòu)在添加減震措施后,結(jié)構(gòu)在塔頂處以及梁端支座處的順橋向和橫橋向的地震位移幅值明顯降低,塔底的內(nèi)力值也明顯減小,說明該減震措施效果較好。
[Abstract]:In recent years, with the rapid development of infrastructure construction in our country, the number of bridge structures built has increased significantly, and the form of bridge structure is also varied because of aesthetic requirements, and suspension bridge is an ancient bridge type. But always radiant with exuberant vitality. Under earthquake action, bridge structure is often damaged, causing great inconvenience to people's passage and disaster relief, so it is very necessary to analyze the seismic response of the structure and to take seismic or seismic isolation measures according to the analysis results. Taking the Liujiaxia suspension bridge as the engineering background, the finite element analysis software MIDAS/CIVIL is used to establish the full bridge model, to analyze its dynamic characteristics, to calculate its seismic response, and to take measures to reduce the earthquake according to the results of the seismic response, and to evaluate and compare the seismic absorption effect. The main contents of the work are as follows: (1) referring to the literature and analyzing the damage form of bridge structure under earthquake load, it is found that in the process of structural damage, the support is often first destroyed. As an important part of the connecting bridge and the substructure, its failure will cause the superstructure to slip, fall off and overturn. The shedding and overturning of the superstructure will cause damage to the substructure. (2) the finite element model of the Liujiaxia suspension bridge is established by using the finite element analysis software MIDAS/CIVIL. Considering the interaction between pile foundation and soil, this paper simulates the pile-soil effect by means of elastic foundation beam method. After the whole model is established, the natural vibration characteristics of the model are analyzed to prepare for the subsequent seismic response analysis. (3) according to the geological conditions of the bridge site and the seismic requirements, the response spectrum function to be input into the bridge structure is determined. Then the response spectrum of the model is analyzed, and the seismic response of the structure in different input directions is considered. (4) according to the site period and geological conditions, Three sets of different classical seismic waves are determined as the seismic load input to the structure, and the three sets of waves are adjusted to meet the requirements of the proposed site, and then the seismic response of the structure under the action of the three sets of waves is solved. (5) according to the results of seismic response, this paper decides to add liquid viscous damper to the structure as a shock absorption measure. According to the literature and data, the viscous damper suitable for the structure is determined, and the technical parameters such as damping coefficient and damping index are analyzed. These parameters are input into the finite element model of bridge structure. (6) after adding viscous damper to the structure, the seismic response of the structure is analyzed, and the internal force and displacement value of the structure after adding the damping measures are obtained. This value is compared with the seismic response value of the structure without adding the damping measures. (7) by comparison, the structure after adding the damping measures, The amplitude of seismic displacement and the internal force at the bottom of the tower are obviously reduced at the top of the tower and at the support of the beam end, which indicates that the effect of the measure is good.
【學(xué)位授予單位】:蘭州交通大學(xué)
【學(xué)位級別】:碩士
【學(xué)位授予年份】:2014
【分類號】:U448.25
本文編號:2262853
[Abstract]:In recent years, with the rapid development of infrastructure construction in our country, the number of bridge structures built has increased significantly, and the form of bridge structure is also varied because of aesthetic requirements, and suspension bridge is an ancient bridge type. But always radiant with exuberant vitality. Under earthquake action, bridge structure is often damaged, causing great inconvenience to people's passage and disaster relief, so it is very necessary to analyze the seismic response of the structure and to take seismic or seismic isolation measures according to the analysis results. Taking the Liujiaxia suspension bridge as the engineering background, the finite element analysis software MIDAS/CIVIL is used to establish the full bridge model, to analyze its dynamic characteristics, to calculate its seismic response, and to take measures to reduce the earthquake according to the results of the seismic response, and to evaluate and compare the seismic absorption effect. The main contents of the work are as follows: (1) referring to the literature and analyzing the damage form of bridge structure under earthquake load, it is found that in the process of structural damage, the support is often first destroyed. As an important part of the connecting bridge and the substructure, its failure will cause the superstructure to slip, fall off and overturn. The shedding and overturning of the superstructure will cause damage to the substructure. (2) the finite element model of the Liujiaxia suspension bridge is established by using the finite element analysis software MIDAS/CIVIL. Considering the interaction between pile foundation and soil, this paper simulates the pile-soil effect by means of elastic foundation beam method. After the whole model is established, the natural vibration characteristics of the model are analyzed to prepare for the subsequent seismic response analysis. (3) according to the geological conditions of the bridge site and the seismic requirements, the response spectrum function to be input into the bridge structure is determined. Then the response spectrum of the model is analyzed, and the seismic response of the structure in different input directions is considered. (4) according to the site period and geological conditions, Three sets of different classical seismic waves are determined as the seismic load input to the structure, and the three sets of waves are adjusted to meet the requirements of the proposed site, and then the seismic response of the structure under the action of the three sets of waves is solved. (5) according to the results of seismic response, this paper decides to add liquid viscous damper to the structure as a shock absorption measure. According to the literature and data, the viscous damper suitable for the structure is determined, and the technical parameters such as damping coefficient and damping index are analyzed. These parameters are input into the finite element model of bridge structure. (6) after adding viscous damper to the structure, the seismic response of the structure is analyzed, and the internal force and displacement value of the structure after adding the damping measures are obtained. This value is compared with the seismic response value of the structure without adding the damping measures. (7) by comparison, the structure after adding the damping measures, The amplitude of seismic displacement and the internal force at the bottom of the tower are obviously reduced at the top of the tower and at the support of the beam end, which indicates that the effect of the measure is good.
【學(xué)位授予單位】:蘭州交通大學(xué)
【學(xué)位級別】:碩士
【學(xué)位授予年份】:2014
【分類號】:U448.25
【參考文獻(xiàn)】
相關(guān)期刊論文 前1條
1 周云,鄧雪松,黃文虎;耗能減震結(jié)構(gòu)的抗震設(shè)計(jì)原則與設(shè)計(jì)方法[J];世界地震工程;1998年04期
本文編號:2262853
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