SEISMIC RESPONSE AND STORY-DRIFT OF REINFORCED CONCRETE FRAME WITH ECCENTRIC STEEL BRACE
-
摘要: 通过对偏心支撑钢筋混凝土框架试验结果的分析以及性能设计和抗震设计位移控制的比较,对其抗震设计中的变形和性能进行研究。为满足性能设计和三水准抗震设计要求,偏心支撑框架结构的侧移限值应比纯框架结构更严格,而且使得支撑的受压屈曲控制在第一水准位移后,将有利于抗震性能的改善。由于偏心钢支撑的作用,偏心支撑框架结构中柱的剪力明显减小,侧向刚度增大,从而有效地避免了框架结构在地震中柱的剪切破坏和过大的侧移。偏心支撑框架结构的地震反应如最大侧移、最大速度、最大加速度明显降低,结果表明,K型支撑是理想的抗震布置方式。Abstract: Depending on the experiment results analysis of the reinforced concrete frame eccentrically braced with steel (EBF structure) and drift limit comparison of performance-based design and three-stage seismic design, the deflection and behavior of EBF structure under seismic motion is discussed. From the point of three-stage principle of seismic design and performance-based design, the story-drift limit of EBF structure should be more strict than the pure frame. Because of the action of steel brace, the shear force of column in EBF structure is reduced and lateral stiffness of EBF structure is increased. The rupture of column and larger lateral deformation are avoided. It is also found that maximum deformation, acceleration, velocity and column shear of the EBF structure are obviously decreased comparing with the pure frame. The K-type brace is advantageous for the earthquake resistance.
-
Key words:
- reinforced concrete frame /
- eccentric steel brace /
- deflection /
- aseismic behavior
-
黄南冀, 张锡云, 姜萝香, 等. 日本阪神大地震建筑震害分析与加固技术. 北京: 地震出版社, 2000 [2] Kawamata, Shigeya, Ohnuma, et al. Strengthening Effect of Eccentric Steel Braces to Existing Reinforced Concrete FramesMProceedings of the 2nd Seminar on Repair and Retrofit of Structures. Sendi and Tsukuba:1981: 120-125 [3] Bouadi A, Engelhardt M D, Jirsa J O, et al. Use of Eccentric Steel Bracing for Strengthening of RPC FramesMProceedings of the Symposium on Structural Engineering in Natural Hazards Mitigat ion. Irvine, CA,USA: 1993: 34-41 [4] Shunasuke Otani. Lessons Learned from Past EarthquakesMProceedings of Fourth Turkish National Conf erence on Earthquake Engineering.Ankara, Turkey: 1997: 67-72 [5] 石建光. 有支撑组合框架结构体系的性能分析研究(EBRCF) M结构工程与振动研究报告集. 北京: 清华大学出版社, 2003: 28-34 [6] Ahmed Ghobarah. Performance-Based Design in Earthquake Engineering: State of Development. Engineering Structures, 2001(23) :878-884 [7] 毋剑平, 白雪霜, 孙建华. 不同设计使用年限下地震作用的确定方法. 工程抗震, 2003(2) : 36-39 [8] Lu Yong, Hao Hong, Arydis P G, et al. Seismic Performance of RC Frames Designed for Three Different Ductility Levels.Engineering Structures, 2001(23) : 537-547 [9] Minoru Wakabayashi. Design of Earthquake-Resistant Building. New York:McCraw-Hill Book Company, 1986 [10] GB 50011-2001 建筑抗震设计规范 [11] CRC Research Institut e. DYNA2E V612. 1999 [12] 冯世平. 钢筋混凝土屈服后性能研究: [博士学位论文]. 北京:清华大学, 1985
点击查看大图
计量
- 文章访问数: 68
- HTML全文浏览量: 4
- PDF下载量: 46
- 被引次数: 0