（1 东莞理工学院城市学院城市与环境科学系， 东莞 523419；

2 华南理工大学土木与交通学院， 广州 510640）

［摘要］利用ANSYS建立了空间中柱端板连接节点、边柱端板连接节点和角柱端板连接节点有限元模型，并分析了这三种空间端板连接节点在空间荷载和平面荷载作用下初始转动刚度和弯矩等性能的变化。研究表明：在空间荷载作用下，空间节点的初始转动刚度要普遍大于平面荷载作用下的初始转动刚度，尤其是空间中柱节点初始转动刚度变化最大；对于节点承载力，空间荷载作用下的承载力小于平面荷载作用下的节点承载力，空间角柱节点受荷载影响最大。最后基于有限元分析了不同荷载作用下空间节点性能差异的原因。

［关键词］空间节点； 数值模型； 初始转动刚度； 承载力

中图分类号：TU393文献标识码：A文章编号：1002-848X(2017)04-0091-05

Finite element analysis on performances of space steel joints with end-plate connection

Zhou Chao1, Wang Zhan2

（1 Department of City and Environment Science, City College of Dongguan University of Technology， Dongguan 523419， China;  

2 School of Civil Engineering and Transportation, South China University of Technology， Guangzhou 510640， China）

Abstract:Numerical models of space end-plate joints including internal joint, external joint and corner joint were established using ANSYS software. The initial rotational stiffness  and the bending moment of three types of space end\|plate joints were analyzed under the space loading and plane loading. The research shows that the initial rotational stiffness under the space loading is bigger than that under the plane loading, especially the change of initial rotational stiffness of the space internal joint is the largest. For the joint bearing capacity, it is smaller under the space loading than that under the plane loading, and the change of space corner joint is the biggest. Finally, the reasons of the performance differences under different loadings were analyzed based on finite element analysis.

Keywords:space joint; numerical model; initial rotational stiffness;  bearing capacity

*东莞理工学院城市学院青年基金（2016QJ001Z）。

作者简介：周超，硕士，Email：chaoabc1234@163.com。