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村镇房屋是历次震害中最薄弱的建筑,提高其抗震性能刻不容缓。本文依据《中国地震动参数区划图》(GB18306-2015)的地震动峰值加速度、反应谱特征周期和地震烈度的取值,以陕南6县18镇54个自然村的1161栋村镇房屋为抽样样本,完成样本的结构类型、结构类型的破坏比及破坏损失比、场地条件、抗震概念设计、村民的抗震知识和抗震防灾意识等现状的统计分析。结果表明:陕南村镇房屋的结构类型有生土结构、木结构、砖木结构、砖混结构和框架结构,其中砖混结构是其主要的抗震结构类型;砖木结构、砖混结构和框架结构在不同地震烈度影响下的破坏比有差异,而破坏损失比相同;陕南村镇房屋的场地条件变化复杂,抗震概念设计存在缺陷且村民的抗震知识和抗震防灾意识淡薄,亟待提高。 相似文献
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历次地震震害表明,底框砌体结构在遭遇大地震时破坏严重.本文比较了《GBJ11-89建筑抗震设计规范》和《GB50011-2001建筑抗震设计规范》中关于该类结构的抗震设计要求.参考某地一个实际底框砌体结构建筑设计资料,分别按上述两版本规范设计了2个具有代表性的底框砌体结构.采用层间剪切模型基于IDA方法对结构进行了地震... 相似文献
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2017年5月11日新疆塔什库尔干5.5级地震给震区建筑结构造成了不同程度破坏。选择震区钢筋混凝土(RC)框架结构、砖混结构以及土石木结构等3类典型建筑结构,介绍了各类建筑结构地震破坏特点,分析了震害特征与破坏机理。结果表明:RC框架结构在地震中表现出了优异的抗震性能,即使在震中区,破坏也仅仅表现为非结构性破坏,如填充墙开裂和吊顶脱落等;砖混结构绝大多数抗震性能优良,仅震中区的少数建筑物发生了承重墙墙体开裂情况;土石木结构房屋抗震性能最差,地震破坏最为严重,是导致该次地震人员伤亡主要原因。建议地震高烈度设防区房屋建筑应采用抗震性能较好的RC框架结构和砖混结构,而抗震性能差的土石木建筑房屋应尽量避免继续建设和使用。结果可供类似地区房屋建设和建筑结构抗震设计等工作参考。 相似文献
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城市建筑群中砖混结构建筑数量众多,抗震性能较弱,在地震中的破损率较高,逐一进行抗震性能测定难度巨大。本文提出基于常时微动观测的城市砖混结构建筑群抗震性能快速评价方法,提供初步的决策参考建议,适用于在大范围城市建筑群中快捷地筛选易损建筑。选取呼和浩特市区331栋砖混结构建筑物进行振动特性分析,分别建立适用于研究区域建筑物长轴和短轴平均共振周期与建筑物楼层数的回归关系,作为衡量研究区砖混结构建筑群抗震能力的快速判断标准。筛选出82栋抗震能力较弱的易损建筑,其中24栋为重点关注对象,主要分布于人口较为密集的老旧城区,多为4层(含)以上住宅类型,建筑年代较为久远,具有面临潜在地震危害的风险,为下一步有针对性地进行抗震加固和防震减灾工作提供参考依据。 相似文献
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《建筑工程抗震设防分类标准》(GB50223-2008)和《关于学校、医院等人员密集场所建设工程抗震设防要求确定原则的通知》(中震防发49号)从不同角度对学校和医院等乙类建筑的抗震设防提出要求。通过抗震设计中地震作用计算的原理以及国内外规范抗震设计的方法的阐述,讨论在不同抗震设防烈度下何种方法对乙类建筑结构抗震能力的提高更为有效,并通过对混凝土框架和钢框架的实例分析和验证,提出设计建议。为规范的修订完善提供参考。 相似文献
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我国7度设防等跨RC框架抗地震倒塌能力研究 总被引:1,自引:0,他引:1
我国建筑结构抗震设计主要采用基于小震下的构件承载力计算保证结构的抗震承载能力,配合抗震构造措施保证结构的变形能力,缺乏大震抗倒塌定量计算.而实际地震震害表明,即使是同类结构,其结构体系参数对其抗地震倒塌能力也有很大影响.为此,本文依据《建筑抗震设计规范》GB50011 - 2001,按照7度抗震设防设计了24个不同跨度... 相似文献
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基于规范弹性反应谱建立需求谱的方法 总被引:13,自引:3,他引:13
阐述了通过力的折减系数R和延性系数μ建立弹塑性反应谱的原理,并由新《建筑抗震设计规范》(GB50011-2001)的加速度反应谱建立了弹塑性需求谱,为结合新抗震规范应用能力谱方法进行结构弹塑性分析奠定了基础。同时本文比较了不同的R-μ关系对需求谱的影响。 相似文献
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Revision of seismic design codes corresponding to building damagesin the “5.12” Wenchuan earthquake 总被引:1,自引:1,他引:0
Yayong Wang 《地震工程与工程振动(英文版)》2010,9(2):147-155
A large number of buildings were seriously damaged or collapsed in the "5.12" Wenchuan earthquake. Based on field surveys and studies of damage to different types of buildings, seismic design codes have been updated. This paper briefly summarizes some of the major revisions that have been incorporated into the "Standard for classification of seismic protection of building constructions GB50223-2008" and "Code for Seismic Design of Buildings GB50011-2001." The definition of seismic fortification class for buildings has been revisited, and as a result, the seismic classifications for schools, hospitals and other buildings that hold large populations such as evacuation shelters and information centers have been upgraded in the GB50223-2008 Code. The main aspects of the revised GB50011-2001 code include: (a) modification of the seismic intensity specified for the Provinces of Sichuan, Shanxi and Gansu; (b) basic conceptual design for retaining walls and building foundations in mountainous areas; (c) regularity of building configuration; (d) integration of masonry structures and precast RC floors; (e) requirements for calculating and detailing stair shafts; and (f) limiting the use of single-bay RC frame structures. Some significant examples of damage in the epicenter areas are provided as a reference in the discussion on the consequences of collapse, the importance of duplicate structural systems, and the integration of RC and masonry structures. 相似文献
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本文以振动台试验方式研究了打包带加固对西藏典型单层混凝土砌块房屋抗震性能的影响,同时考虑了结构平面布置、抗震设防及砌筑质量三个因素。选取3种西藏地区民居的经典户型制作了7个1∶3缩尺模型进行振动台试验,模型分别为3个无打包带加固模型、3个有打包带加固模型以及1个加固一半的模型。试验结果表明打包带加固墙体能明显提高墙体的整体性,减轻墙体震损;无打包带加固但砌筑质量好的单层民居抗震能力较好,基本满足当地9度设防的要求;高烈度下平面布置不规则的结构容易因扭转作用而发生破坏,圈梁、构造柱也在高烈度下发挥较大作用。打包带加固技术作为一种经济实用的加固技术可在西藏地区进行推广。 相似文献
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Wang Yayong 《地震工程与工程振动(英文版)》2008,7(3):255-262
Many different types of buildings were severely damaged or collapsed during the May 12, 2008 Great Wenchuan Earthquake. Based on survey data collected in regions that were subjected to moderate to severe earthquake intensities, a comparison between the observed building damage, and the three earthquake performance objectives and seismic conceptual design principles specified by the national "Code for Seismic Design of Buildings GB50011-2001," was carried out. Actual damage and predicted damage for a given earthquake level for different types of structures is compared. Discussions on seismic conceptual design principles, with respect to multiple defense lines, strong column-weak beam, link beam of shear walls, ductility detailing of masonry structures, exits and staircases, and nonstructural elements, etc. are carried out. Suggestions for improving the seismic design of structures are also proposed. It is concluded that the seismic performance objectives for three earthquake levels, i.e., "no failure under minor earthquake level, ""repairable damage under moderate earthquake level" and "no collapse under major earthquake level" can be achieved if seismic design principles are carried out by strictly following the code requirements and ensuring construction quality. 相似文献
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以宁蒗县1988年MS 5.5、2012年MS 5.7以及2022年MS 5.5地震为研究对象,以宁蒗地震灾区当年相关震害统计资料为基础,从人员伤亡、房屋破坏、经济损失3个主要方面,对3次地震震害特征进行对比分析。结果表明: 2012年MS 5.7地震造成的人员伤亡最为严重,此外震区房屋结构不断丰富,抗震性能不断增强,但土木结构房屋抗震性能较差,震灾经济损失逐渐减小,但民房经济损失占比逐年升高。根据分析以上结果提出“提高民众防震减灾意识,增强房屋抗震性能,积极响应政策号召”等建议和措施,为灾后重建以及城市规划发展提供借鉴。 相似文献
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单体建筑无筋砌体结构的抗震韧性较差,在地震中容易发生严重破坏和倒塌。为此,以抗震韧性为参数指标,对单体无筋砌体结构进行加固并分析,研究其在地震作用下的抗震能力。以某实际工程作为研究对象,运用ANSYS软件建立单体建筑无筋砌体加固有限元模型,选取中国汶川地震波、日本阪神大地震波、美国克恩县地震波、中国台湾集集地震波及人工地震波作为地震动输入,利用韧性指数法和韧性等级法,从无筋砌体加固体系在震后的修复费用、修复时间及人员伤亡等方面进行分析,得到抗震韧性评估结果。研究表明:(1)在罕遇地震、设防地震和多遇地震的情况下,单体建筑无筋砌体结构的层间位移、层间剪应力、破坏程度均大于单体建筑无筋砌体加固体系;(2)在受到地震强弱因素影响下,无筋砌体结构的抗震韧性指数最高为0.877,而其加固体系的抗震韧性指数最低为0.908;(3)在经历不同地震波后,无筋砌体结构受到较大损害等级占比较高,人员伤亡较重,需要花费较长的时间和较多的费用完成灾后重建;而经过加固后的无筋砌体结构,加固体系受到较小损害等级占比较高,人员伤亡较轻,且能够用较短的时间和较少的费用完成灾后重建。 相似文献
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This paper describes a set of on-site earthquake safety evaluation systems for buildings, which were developed based on a network platform. The system embedded into the quantitative research results which were completed in accordance with the provisions from Post-earthquake Field Works, Part 2: Safety Assessment of Buildings, GB18208.2-2001, and was further developed into an easy-to-use software platform. The system is aimed at allowing engineering professionals, civil engineeing technicists or earthquake-affected victims on site to assess damaged buildings through a network after earthquakes. The authors studied the function structure, process design of the safety evaluation module, and hierarchical analysis algorithm module of the system in depth, and developed the general architecture design, development technology and database design of the system. Technologies such as hierarchical architecture design and Java EE were used in the system development, and My SQL5 was adopted in the database development. The result is a complete evaluation process of information collection, safety evaluation, and output of damage and safety degrees, as well as query and statistical analysis of identified buildings. The system can play a positive role in sharing expert post-earthquake experience and promoting safety evaluation of buildings on a seismic field. 相似文献