南京环亚大厦设计上部结构内力数值计算及地震反应分析
摘要本文以南京环亚大厦为背景,运用PKPM系列软件完成结构设计、计算及优化。通过SATWE完成上部结构内力数值计算和多遇地震作用下弹性时程分析,通过EPDA完成罕遇地震作用下弹塑性时程分析。初步选定结构布置及有关尺寸,内力计算后选择最合理的方案,在此方案基础上进行SATWE弹性时程分析,计算结果满足规范要求。在弹塑性时程分析中结果满足规范要求,并通过速度、有害位移等曲线判断5、6层为薄弱层。通过塑性铰出现顺序及位置确定中间部分剪力墙周边短梁以及裙房1~2层东西向主梁为薄弱构件。后续的分析为最初的结构布置、尺寸提出优化设计方案,提高建筑抗震性能。87487
毕业论文关键词 高层建筑 内力计算 时程分析 塑性铰 薄弱构件
毕业设计说明书外文摘要
Title The Design of Huanya Skyscraper in Nanjing - Internal Force Calculation and Earthquake Response Analysis of Superstructure
Abstract In the paper, according to the engineering background of Huanya Skyscraper in Nanjing, the author uses PKPM family software to complete the structural design, calculation and optimization。 The SATWE software was used to complete internal force calculation and time-historic analysis under frequent earthquake of superstructure。 The EPDA was used to complete the nonlinear time-historic analysis under rarely occurred earthquake of superstructure。 The most reasonable plan was selected after internal force calculation among the structural arrangements and dimensions initially set。 The time-historic analysis completed by SATWE in this program, the results meet the regulatory requirements。 The results came from nonlinear time-historic analysis also satisfy the regulatory requirements, speed curve and hazardous displacement angle curve showed that the 5,6 layers are weak layers。 Also the short beam around the shear walls and the main beam from east to west in the first to second floor of annex are weak components。 The subsequent analysis gave the optimization design plan to original arrangement and dimensions to improve the seismic performance of buildings。
Keywords high-rise structure value calculation time-historic analysis
plastic hinge weak component
目 次
1 引言1
1。1 研究背景1
2 结构抗震计算理论7
2。1 振型分解反应谱法7
2。2 时程分析法8
3 建筑结构设计分析软件11
3。1 PKPM系列软件主要模块软件11
3。2 高层建筑空间有限元分析软件SATWE12
3。2 弹塑性动力时程分析软件EPDA12
4 梁截面尺寸设计计算及结构模态分析15
4。1 建筑资料15
4。2 PMCAD建模18
4。3 SATWE内力计算过程31
4。4 参数设置31
4。5 信息解读36
4。6 本章小结46
5 多遇地震下弹性时程分析及优化47
5。1 弹性时程分析47
5。2 数据结果分析50
5。3 曲线分析及优化设计55
5。4 本章小结56
6 罕遇地震下弹塑性时程分析及优化58
6。1 弹塑性时程分析准备工作58
6。2 计算结果及数据分析60
6。3 塑性铰分析65
6。4 本章小结71
7 结论与展望72
7。1 结论72
7。2 展望72
致谢73
参考文献74
1 引言