共查询到19条相似文献,搜索用时 140 毫秒
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针对低烈度区砌体结构房屋抗震的需要,本文提出利用纤维砂浆带加固砌体墙的一种廉价抗震方案。运用有限元分析软件Ansys10.0进行数值模拟分析,探讨这种加固方案的可行性,并在此基础上进行试验研究。通过纤维砂浆带加固砌体墙片在低周反复荷载作用下的试验,对墙片的破坏特征、裂缝的发展过程、滞回特性、结构延性等技术指标进行对比分析,结果表明,采用纤维砂浆带加固砌体墙有助于提高墙体的开裂荷载,增加结构的延性,改善墙体的抗震性能。 相似文献
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为弥补空斗墙抗震性能差和发挥活性粉末混凝土(RPC)的超高韧性,对1片未加固处理的空斗墙和2片由RPC面层加固处理的空斗墙分别进行拟静力试验,并结合有限元对三组试验进行参数分析。得出影响墙体抗震性能的主要因素有:墙体构造柱尺寸、轴压比、RPC单双面加固以及面层加固厚度。根据试验和有限元所得到的破坏特征,结合圈梁-构造柱对墙体的约束作用,引入等效受压斜撑模型,并量化圈梁-构造柱对墙体约束效应。基于圈梁-构造柱与墙体、RPC面层与被约束的墙体的协同受力特性,建立约束墙体及面层加固体墙的抗剪承载力的计算式。 相似文献
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《地震工程与工程振动》2015,(3)
为科学评定新疆安居房屋的抗震能力,通过1/2大比例尺新疆安居房屋模型模拟地震振动台试验,研究设置构造柱与圈梁的新疆安居房屋模型在地震作用下的破坏特征以及地震反应。试验结果表明,在峰值加速度为0.1 g~0.3 g地震动作用下,模型处于完好状态。在峰值加速度0.4 g地震动作用下,模型墙体出现开裂。在峰值加速度1.2 g地震动作用下,墙体发生明显破坏但未倒塌,构造柱和圈梁基本完好。试验结果证实设置构造柱和圈梁是提高砌体房屋抗倒塌能力的一种有效措施,新疆安居房屋具有良好的抗震能力。 相似文献
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国内震害调查表明我国农村房屋在地震中破坏严重,主要原因是农村自建房屋大都缺乏基本抗震措施.近年来有关部门针对农村房屋的抗震性能提出一些改进措施,但这些措施实际抗震效果如何,除了极少数通过模型试验验证外,很少得到验证.本文建立了砌体结构非线性有限元分析模型,以一幢农宅为研究对象,通过地震时程反应来再现其在地震作用下的破坏状况.研究表明本文提出数值模型能够较好的模拟砌体结构在地震中破坏过程,发现结构抗震薄弱部位.通过对三种模型对比分析表明圈梁和构造柱可以有效提高砌体结构整体抗震性能,但对局部破坏影响不大,需要在以后抗震设计中加以考虑. 相似文献
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关于预应力砖墙的变形,延性与耗能问题的试验研究 总被引:3,自引:0,他引:3
通过预应力与非预应力带圈梁、构造柱砖墙的1:2模型在低周交变水平荷载下的对比试验,研究了墙片开裂至破坏的全过程,着重分析了刚度、延性及耗能等问题。试验结果表明:墙体在施加预应力后,既能较大幅度地提高抗裂度和承载能力,又能明显地改善变形、延性及耗能的性能,从而给预应力砌体在抗震工程中的应用提供了理论和试验依据。 相似文献
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四川芦山7.0级强烈地震影响区域内有大量的砌体结构房屋,既有未采取任何抗震构造措施的非约束砌体结构,也有设置了圈梁和构造柱的约束砌体结构.文中首先简要讨论了本次地震强震动特性,表明其高频成分丰富,反应谱中低频部分衰减较快,是刚性结构和柔性结构地震破坏表现差别较大的原因之一;继而论文重点以现场震害调查资料为基础,总结了不同烈度区、不同类型砌体结构的震害特征;高烈度区不同类型砌体结构的震害程度和破坏比对比表明,约束砌体结构的抗震性能明显优于非约束砌体结构. 相似文献
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Seismic behaviour of masonry buildings, built of low compressive strength units, is discussed. Although such materials have already been tested and approved for use from mechanical and thermal insulation point of view, the knowledge regarding their structural behaviour is still lacking. In order to investigate the resistance and deformation capacity of this particular type of masonry construction in seismic conditions, a series of eight walls and model of a two-storey full scale confined masonry building have been tested by subjecting the specimens to cyclic shear loads. All tests were conducted under a combination of constant vertical load and quasi static, cyclically imposed horizontal load. The behaviour of tested specimens was of typical shear type. Compared with the behaviour of plain masonry walls, the presence of tie-columns resulted into higher resistance and displacement capacity, as well as smaller lateral resistance degradation. The response of the model was determined by storey mechanism with predominant shear behaviour of the walls and failure mechanism of the same type as in the case of individual confined masonry walls. Adequate seismic behaviour of this particular masonry structural type can be expected under the condition that the buildings are built as confined masonry system with limited number of stories. 相似文献
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Explicit finite‐element analysis for the in‐plane cyclic behavior of unreinforced masonry structures
A simple constitutive model is proposed for an in‐plane numerical analysis of unreinforced masonry structures, which are subject to cyclic loading, by using explicit dynamic procedures. The proposed model is implemented by using two‐dimensional plane‐stress finite elements. Three different constitutive relations that are based on the total strain in the global material system are used. Cracking and crushing are controlled through normal strains, whereas shear is controlled through shear strain. Separate hysteretic rules are adopted for each mode of damage. A numerical analysis of masonry walls that are subject to cyclic loading has demonstrated that the use of explicit procedures in conjunction with the proposed model results in an acceptable accuracy when compared with the experimental results. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
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Norio Hori Norio Inoue Dangol Purushotam Tetsuya Nishida Jun Kobayashi 《地震工程与结构动力学》2006,35(13):1699-1719
To improve the seismic performance of masonry structures, confined masonry that improves the seismic resistance of masonry structures by the confining effect of surrounding bond beams and tie columns is constructed. This study investigated the earthquake resisting behaviour of confined masonry structures that are being studied and constructed in China. The structural system consists of unreinforced block masonry walls with surrounding reinforced concrete bond beams and tie columns. The characteristics of the structure include: (1) damage to blocks is reduced and brittle failure is avoided by the comparatively lower strength of the joint mortar than that of the blocks, (2) the masonry walls and surrounding reinforced concrete bond beams and tie columns are securely jointed by the shear keys of the tie columns. In this study, wall specimens made of concrete blocks were tested under a cyclic lateral load and simulated by a rigid body spring model that models non‐linear behaviour by rigid bodies and boundary springs. The results of studies outline the resisting mechanism, indicating that a rigid body spring model is considered appropriate for analysing this type of structure. Copyright © 2006 John Wiley & Sons, Ltd. 相似文献
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Using the applied element method for modelling calcium silicate brick masonry subjected to in‐plane cyclic loading 
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下载免费PDF全文 The response of calcium silicate unreinforced masonry construction to horizontal cyclic loading has recently become the focus of experimental and numerical research, given its extensive use in some areas of the world that are now exposed to induced earthquakes (eg, north of the Netherlands). To assess the seismic behaviour of such construction, a relatively wide range of modelling methodologies are available, amongst which the discrete elements approach, which takes into account the intrinsic heterogeneity of a brick‐mortar assembly, can probably be deemed as the most appropriate computational procedure. On the other hand, however, since discrete elements numerical methods are based on a discontinuum domain, often they are not able to model every stage of the structural response adequately, and because of the high computational burden required, the analysis scale should be chosen carefully. The applied element method is a relatively recent addition to the discrete elements family, with a high potential for overcoming the aforementioned limitations or difficulties. Initially conceived to model blast events and concrete structures, its use in the earthquake engineering field is, of late, increasing noticeably. In this paper, the use of the applied element method to model the in‐plane cyclic response of calcium silicate masonry walls is discussed and scrutinised, also through the comparison with experimental results of in‐plane cyclic shear‐compression tests on unreinforced masonry walls. 相似文献
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Seismic assessment of existing unreinforced masonry buildings represents a current challenge in structural engineering. Many historical masonry buildings in earthquake regions were not designed to withstand seismic loading; thus, these structures often do not meet the basic safety requirements recommended by current seismic codes and need to be strengthened considering the results from realistic structural analysis. This paper presents an efficient modelling strategy for representing the nonlinear response of unreinforced masonry components under in‐plane cyclic loading, which can be used for practical and accurate seismic assessment of masonry buildings. According to the proposed strategy, generic masonry perforated walls are modelled using an equivalent frame approach, where each masonry component is described utilising multi‐spring nonlinear elements connected by rigid links. When modelling piers and spandrels, nonlinear springs are placed at the two ends of the masonry element for describing the flexural behaviour and in the middle for representing the response in shear. Specific hysteretic rules allowing for degradation of stiffness and strength are then used for modelling the member response under cyclic loading. The accuracy and the significant potential of the proposed modelling approach are shown in several numerical examples, including comparisons against experimental results and the nonlinear dynamic analysis of a building structure. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献
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This paper deals with the results of cyclic load tests on masonry walls performed for the purpose of evaluation of in-plane shear behaviour and identification of shear strength, stiffness and energy dissipation. Eight walls in two series were assembled in laboratory conditions. The first series consisted of four unreinforced masonry walls constructed from solid clay bricks and lime mortar. The walls from the second series were strengthened by application of RC jackets on both sides. These were constructed of the same material and were characterized by the same geometry properties and vertical load levels as those of the walls from the first series. The main goal of the tests was to compare the behaviour of the unreinforced and strengthened walls under cyclic horizontal load. The results from the tests showed that the application of the strengthening method contributed to a significant improvement of the shear resistance of the jacketed walls. Analytical models were used to predict the shear resistance of the walls. Good agreement with the experimental results was obtained with a model based on tensile strength of masonry. 相似文献
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Most of the studies related to the modeling of masonry structures have by far investigated either the in‐plane (IP) or the out‐of‐plane (OP) behavior of walls. However, seismic loads mostly impose simultaneous IP and OP demands on load‐bearing or shear masonry walls. Thus, there is a need to reconsider design equations of unreinforced masonry walls by taking into account bidirectional effects. The intent of this study is to investigate the bidirectional behavior of an unreinforced masonry wall with a typical aspect ratio under different displacement‐controlled loading directions making use of finite element analysis. For this purpose, the numerical procedure is first validated against the results of the tests on walls with different failure modes conducted by the authors. Afterward, the response of the wall systems is evaluated with increasing top displacement having different orientations. A set of 19 monotonic and three cyclic loading analyses are performed, and the results are discussed in terms of the variation of failure modes and load–displacement diagrams. Moreover, the results of wall capacity in each loading condition are compared with those of the ASCE41‐06 formulations. The results indicate that the direction of the resultant force, vectorial summation of IP and OP forces, of the wall is initially proportional to the ratio of stiffness in the IP and the OP directions. However, with the increase of damage, the resultant force direction inclines towards the wall's longitudinal direction regardless of the direction of the imposed displacement. Finally, recommendations are made for applicability of ASCE41‐06 formulations under different bidirectional loading conditions. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
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Fernando F. S. Pinho Válter J. G. Lúcio Manuel F. C. Bai?o 《Bulletin of Earthquake Engineering》2012,10(1):161-180
This paper describes and analyses the performance of two structural strengthening solutions for rubble stone masonry walls.
The strengthening solutions are characterised by: sprayed micro-concrete steel reinforced layers on both lateral faces of
the walls, with transversal steel ties through the thickness of the specimens, not in contact with the base of the loading
systems; sprayed micro-concrete steel reinforced layers on lateral faces of the specimens, without transversal steel ties
but in contact with the base of the loading systems. For the first solution three specimens were tested under axial compression
load and three under compression-shear load, and for the second solution three specimens were tested under axial compression
load. The results are compared with unstrengthened (reference) specimens. Strengthening solutions of this nature have been
used in the rehabilitation of old masonry walls in Portugal, particularly in Lisbon downtown, and in the rehabilitation of
some Azores buildings after the 1998 earthquake. 相似文献
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轴向压力对配筋砌体短肢剪力墙抗剪性能的影响 总被引:1,自引:0,他引:1
通过对6片足尺290mm厚全灌芯配筋砌块砌体短肢剪力墙拟静力试验结果的分析,利用非线性有限元方法,模拟了此种墙体在压弯剪共同作用下的抗剪特性,研究了轴向压力对配筋砌块砌体短肢剪力墙抗剪性能的影响。研究表明,在不同高宽比的墙体中,轴向压力均对墙体的抗剪能力有较大影响,随着轴向压力增大,墙体抗剪能力先增大后减小(轴压比n从0.1增长到0.4时,墙体抗剪能力逐渐增大,而n从0.4增长到0.6时,墙体抗剪能力却逐渐减小);随着轴向压力的增大,墙体延性在逐渐减小。提出当轴压比等于0.3时,墙体抗剪能力和延性均较好,建议在建筑抗震设计规范中采用此值。 相似文献