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局部削弱型防屈曲约束支撑有限元数值分析 被引量:1

FINITE ELEMENT NUMERICAL ANALYSIS OF LOCALLY WEAKENED BUCKLING RESTRAINED BRACES
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摘要 为实现防屈曲约束支撑定点屈服并兼具可装配的功能,文中提出一种新形式的装配式局部削弱型防屈曲约束支撑。为研究该新型防屈曲约束支撑的性能,采用ABAQUS有限元软件对试件进行数值模拟。研究结果表明,局部削弱可以实现定点屈服,但开孔不宜过大,否则出现严重的局部屈曲。间隙和较小的初始缺陷对构件性能基本无影响。随着加劲肋的增多,构件的滞回曲线越饱满。内芯构件的屈服点越低,耗能系数越大。 In order to realize the fixed-point yielding and assembly function of buckling-resistant braces, a new type of assembled partial weakened buckling-resistant braces is proposed in this paper. In order to study the performance of the new buckling-resistant brace, ABAQUS finite element software was used to simulate the specimen. The results show that the local weakening can achieve the fixed-point yield, but the opening should not be too large, otherwise serious local buckling will occur. The clearance and small initial defects have little effect on the performance of the component. With the increase of stiffeners, the hysteretic curves of members become fuller. The lower the yield point is, the greater the energy dissipation coefficient is.
作者 贾朋钊 钱江 JIA Pengzhao;QIAN Jiang(State Key Laboratory of Disaster Reduction in Civil Engineering, Tongji University, Shanghai 200092, China)
机构地区 同济大学土木工程防灾国家重点实验室
出处 《低温建筑技术》 2019年第7期51-54,76,共5页 Low Temperature Architecture Technology
关键词 防屈曲约束支撑 局部削弱 有限元数值分析 耗能性能 buckling restrained braces local weakening finite element numerical analysis energy dissipation performance
分类号 TU311.1 [建筑科学—结构工程]
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  • 1汪家铭,中岛正爱,陆烨.屈曲约束支撑体系的应用与研究进展(Ⅰ)[J].建筑钢结构进展,2005,7(1):1-12. 被引量:193
  • 2蔡克铨,黄彦智,翁崇兴.双管式挫屈束制(屈曲约束)支撑之耐震行为与应用[J].建筑钢结构进展,2005,7(3):1-8. 被引量:102
  • 3郭彦林,刘建彬,蔡益燕,邓科.结构的耗能减震与防屈曲支撑[J].建筑结构,2005,35(8):18-23. 被引量:105
  • 4申波,邓长根.柔性套管约束下轴心受压杆件的屈曲分析[J].力学与实践,2006,28(5):43-46. 被引量:7
  • 5申波,邓长根.双钢管构件由点接触到线接触的连续过渡[J].工程力学,2007,24(2):154-160. 被引量:19
  • 6[19]Brown, A. P. ,Aiken, I. D. and Jafarazadeh, F. J. (2001).Buckling restrained braces provide the key to the seismic retro fit of the Wallace F. Bennett Federal Building. Modern Steel Construction, August, 29- 37.
  • 7[20]Wada, A. , Connor, J. , Kawai, H. , Iwata, M. , and Watanabe,A. (1992). Damage tolerant structures. Proceedings, 5th U.S. -Japan Workshop on the Improvement of Structural Design and Construction Practices, ATC 15 - 4, Applied Technology Council, San Diego, CA, 27-39.
  • 8[22]Wakabayashi, M. , Nakamura, T. , Kashibara, A. , Morizono,T. And Yokoyama, H. (1973). Experimental study of elastoplastic properties of precast concrete wall panels with built-in insulating braces, Summaries of Technical Papers of Annual Meeting,Architectural Institute of Japan, 1041 - 1044. (in Japanese)
  • 9[23]Inoue,K. and Sawaisumi S. (1992). Bracing design criterion of the reinforced concrete panel including unbonded steel diagonal braces,Journal of Structural and Construction Engineering,Architectural Institute of Japan, 432, 41 49. ( in Japanese)
  • 10[24]Fujimoto, M. , Wada, A. , Saeki, E. , Watanabe, A. , and Hito mi,Y. (1988). A study on the unbonded brace encased in buckling-restraining concrete and steel tube. Journal of Structural Engineering,Architectural Institute of Japan, No. 034B,249-258. (in Japanese)

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低温建筑技术
2019年 第7期

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