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中华恐龙塔抗震性能试验研究
Experimental and Numerical Analysis of Anti-seismic Performance Research on China Dinosaur Pagoda
【作者】 朱飞;
【导师】 王凤来;
【作者基本信息】 哈尔滨工业大学 , 建筑与土木工程, 2011, 硕士
【摘要】 中华恐龙塔拟建于黑龙江省嘉荫县恐龙地质公园,建成后为我国当代建设最高的无筋石砌体结构建筑,属于超限建筑。砖石古塔是中国古代高层建筑的杰出代表和建筑艺术瑰宝,并且具有卓越的抗震性能,屹立千年而不倒。中华恐龙塔为仿古石塔建筑,是发扬中国古代特色建筑风格、延续民族建筑结构内涵的重要媒介,填补我国对新建石结构塔体设计和其抗震性能研究的空白,具有重要的理论意义和工程价值。论文通过对设计原型塔的技术调研,详细分析了石塔结构的现状、受灾损伤情况,进行了中华恐龙塔的结构设计,在此基础上,进行了拟建石塔的1/12比例模型的地震模拟振动台试验,结合模型塔和拟建石塔的数值模拟分析,对石塔结构的动力特性和地震反应进行了系统研究。通过上述研究,对中华恐龙塔的抗震能力和建设的技术可行性进行了全面的技术评价。论文介绍了中华恐龙塔模型结构振动台的试验设计、施工和试验工况及过程,并进行了试验结果分析,观察模型结构在地震作用下的薄弱环节及破坏机制,研究了模型结构的动力特性和地震反应。结论是模型结构在弹性范围内具有良好的抗震性能,未有明显的薄弱层,满足现行规范中的抗震设防要求。建立类似于振动台试验模型简化的SAP2000有限元软件分析模型,得到了结构的动力特性和在振型分解反应谱法、弹性时程分析下的模型结构地震反应,对有限元分析结果和试验结果进行了对比分析,两者符合良好。采用有限元软件SAP2000对中华恐龙塔进行重力作用下计算和抗震性能的计算,利用模态分析得出结构的动力特性,分别用振型分解反应谱法和弹性时程分析法对中华恐龙塔计算结构的动力反应。结论是结构满足6度多遇和相当于6度罕遇地震的设防指标,和按照设计基准期为100年设计时,相当于6度罕遇地震作用的对应于设计基准期为50年的9度多遇地震下,结构安全,7度罕遇地震作用下弹性计算结构会出现较大的损伤不能满足承载力设计要求。
【Abstract】 The China Dinosaur Pagoda will be built in Jiayin County Dinosaur Geological Park, Heilongjiang Province. It is the highest overrun unreinforced buildings of stone structure in China modern time when completed. Masonry pagoda is a kind of outstanding representative of ancient high-rise buildings and architectural art treasures, which has excellent seismic performance and stands down for thousands of years. The China Dinosaur Pagoda is modeled on the antique stone pagoda building. It is the national media to develop Chinese architectural style of ancient characteristics, continue the important content of building structures, and fill the blank of the stone structure of the tower on the new design and the seismic properties, which has important theoretical significance and engineering value.The study on the technology investigation of prototype pagoda is to analysis its present situation after earthquake and damage, making structural design on the China Dinosaur Pagoda. Thus starting a 1/12 model shaking table test, in combination with effective numerical simulation based on finite element method on the model and full scale of the China Dinosaur Pagoda, researching its dynamic properties and seismic responses. What have done above is to conclude comprehensive evaluation of resisting seismic capacity and construction feasibility on China Dinosaur Pagoda.This paper introduces the model shaking table test design, construction and test conditions and procedures of the China Dinosaur Pagoda structure, and analyses the test results. This research observes the weaknesses and failure mechanism and studies the dynamic properties of the model and seismic response under earthquake. The results indicate that the model structure has a good seismic performance in the elastic range, there is no obvious weak layer in this structure and it can meet the current specification requirements to resist seismic.A simplified model similar to shaking table tests is established by commercial finite element software SAP2000. The dynamic characteristics and structural seismic response are obtained by the spectrum method, elastic time history analysis, respectively. The finite element analysis results are agreed with the experimental results.This research calculates the gravity and seismic performance on the Chinese Dinosaur Pagoda by SAP2000. The dynamic characteristics are obtained from modal analysis and the dynamic responses on the China Dinosaur Pagoda are calculated by the modal response spectrum method and the elastic time history analysis method. It is concluded that the structure meets the opportunities and the equivalent of more than 6 degrees fortified targets, when the design base period is 100 years, with the equivalent of 6 degrees rare earthquake design basis corresponding to a period of 50 years 9 multi-degree earthquake, the structure is safe. The structural elastic calculating cannot meet the capacity design requirements when encounter the rare earthquake of 7 degrees.
【Key words】 stone pagoda; overrun building; shaking table test; finite element analysis; seismic behavior;
- 【网络出版投稿人】 哈尔滨工业大学 【网络出版年期】2012年 05期
- 【分类号】TU352.11
- 【被引频次】1
- 【下载频次】73