Deformation capability and load-carrying capability of steel plate element under high temperature
-
摘要: 钢结构塑性设计和抗震设计中都要求组成钢结构的板件有足够的局部变形能力,以防止板件局部的屈曲而降低钢板件的承载能力.结合常温状态下钢板件变形和承载能力分析的基本原理和方法,用非线性有限元法,对钢结构中常用的四边支撑钢板件在高温下的屈曲性能进行分析,着重考虑了板件宽厚比、边界约束和初始缺陷等因素对板件变形能力和承载能力的影响.此外,通过参数的分析,还给出了板件宽厚比与变形能力和承载力的相关关系.Abstract: In the plastic design and anti-seismic design of steel structures, It is demanded that the component plates undergo large local deformations for the plastic hinge to develop and the load-carrying capability doesn’t decreasebecause of local buckling of the plates. Based on the basic principles and methods which are used to analyze the deformation capability and load-carrying capability of steel plates under normal temperature condition, the nonlinear finite element method was used to analyze the buckling behaviors of four-edge supported plates under uniform uniaxial compression and high temperature. The width-to-thickness ratio, constraint conditions of boundary and initial geometric imperfections were all considered. The relationships among the width-to-thickness ratio, deformation capability and the load-carrying capability were carefully studied. Furthermore, the formulas and the relationships among width-to-thickness ratio, deformation capability and load-carrying capability were also showed according to the parameter analysis, which can be used to evaluate the ductility of steel plates under high temperature.
-
Key words:
- fire /
- steel plate element /
- width-to-thickness ratio /
- deformation /
- load-carrying
-
[1] Fukumoto Y. Itoh Y. Width-to-thickness ration for plate elements in earthquake engineering design of steel structures . In:Fukumoto Y, Lee G C. Stability and Ductility of Steel Structures Under Cyclic Loading . London:CRC Press, 1992.285~296 [2] 董永涛,张耀春. 均匀受压钢板件的变形能力和承载能力[J]. 钢结构,1997,12(2):20~26 Dong Yongtao, Zhao Yaochun. The deformation capability and load-carrying capability of steel plate element under high temperature[J]. Steel Structure, 1997,12(2):20~26(in Chinese) [3] 王万祯,马宏伟,张振涛. 剖分T型钢轴压杆件的腹板宽厚比限值研究[J].西安建筑科技大学学报,2001,33(2):131~134 Wang Wanzhen, Ma Hongwei, Zhang Zhentao. Study on the webs' ratio of width to thickness of cut T-style steel elements in axial press [J].Journal of Xi’an Univ of Arch & Tech, 2001,33(2):131~134(in Chinese) [4] 周圣凯,郝际平,史小强.剖分T型钢轴心压杆试验研究[J]. 建筑科学与工程学报,2005,22(1):87~90 Zhou Shengkai, Hao Jiping, Shi Xiaoqiang. Experimental research of cut T shape columns subject to axial compression[J]. Journal of Architecture and Civil Engineering,2005,22(1):87~90(in Chinese) [5] 卫原平, 阮雪榆.高温纵向压印过程的有限元热力耦合分析[J].上海交通大学学报,1996,30(2):140~146 Wei Yuanping,Ruan Xueyu. Coupled thermo-mechanical analysis of hot longitudinal indentation process by rigid thermo-viscoplastic FEM[J]. Journal of Shanghai Jiaotong University,1996,30(2):140~146(in Chinese) [6] 候新录. 薄板对接焊的热弹塑性有限元法分析[J]. 太原工业大学学报,1994,25(2):41~47 Hou Xinlu. The thermoelastoplastic analysis of butt welded plate by finite element method[J]. Journal of Taiyuan University of Technology, 1994,25(2):41~47(in Chinese) [7] GBJ 7-88 钢结构设计规范[S] BJ 7-88 Code for design of steel structures[S] in Chinese) [8] 魏明钟. 钢结构设计新规范应用讲评[M]. 北京:中国建筑工业出版社,1991.150~151 Wei Mingzhong. The application and comment of new code for design of steel structures[M].Beijing:China Architecture and Building Press,1991.150~151(in Chinese)
点击查看大图
计量
- 文章访问数: 2695
- HTML全文浏览量: 278
- PDF下载量: 4
- 被引次数: 0