屈曲
轮缘
结构工程
张力(地质)
有限元法
弯曲
材料科学
压力(语言学)
横截面(物理)
有限条法
跨度(工程)
冷成型
工程类
复合材料
压缩(物理)
物理
哲学
量子力学
语言学
作者
Nan-ting Yu,Xu-Hao Huang,Xing-Hao Xu,Zemin Chen,Wei-bin Yuan
标识
DOI:10.1142/s0219455422501887
摘要
Perforated cold-formed steel (PCFS) beams are regarded as an economical option for steel construction industry owing to its various advantages. They can provide access for the facilities like electric wires and pipelines to penetrate the web so that extra building space could be saved. However, the web openings might change the web stress distribution as well as reduce the cross-sectional properties, which make the PCFS beams more susceptible to buckling and may have effect on their load-bearing capacity. In this paper, a simplified spring model was proposed based on the use of energy method, to predict the critical moment of lateral-torsional buckling of PCFS channel beams with circular holes in web subject to pure bending. The effect of hole sizes and lateral restraint at the tension flange was examined by using the derived analytical solution. In addition, eigenvalue buckling analysis was conducted by using finite-element package ANSYS to validate the accuracy of the proposed analytical model. The results demonstrated that the proposed analytical solution was reliable and the critical moment predicted can be used for the extension of DSM formulae for the design of PCFS beams when considering the failure caused by lateral-torsional buckling of the beams.
科研通智能强力驱动
Strongly Powered by AbleSci AI