首页 | 本学科首页   官方微博 | 高级检索  
     

考虑除尘器箱体墙板-立柱协同受力时立柱在横向荷载作用下的内力计算
引用本文:钱海峰, 赵婧同, 王元清, 王登峰. 考虑除尘器箱体墙板-立柱协同受力时立柱在横向荷载作用下的内力计算[J]. 工程力学, 2019, 36(7): 227-237,247. DOI: 10.6052/j.issn.1000-4750.2018.03.0134
作者姓名:钱海峰  赵婧同  王元清  王登峰
作者单位:1.江南大学环境与土木工程学院, 无锡 214122;;2.清华大学土木工程系, 北京 100084
基金项目:国家自然科学基金;江苏省自然科学基金;江苏省研究生实践创新计划项目
摘    要:大气除尘装备箱体围护结构形式和荷载情况十分复杂,目前尚无关于除尘器箱体立柱在横向荷载作用下其内力分布的精确计算方法。该文采用理论推导与有限元计算相结合的方法对除尘器箱体立柱在墙板直接受横向荷载作用时的内力与强度计算方法进行研究。在考虑墙板所受横向荷载向立柱传递时,将墙板视作由上、下相邻加劲肋和左、右两侧立柱围成的四边简支板,加劲肋处传递集中力,加劲肋间传递非均匀分布荷载。将立柱作为多跨连续弹性梁,采用力矩分配法编写程序计算其最大弯矩和剪力值。根据除尘器箱体立柱的跨数、每跨立柱范围内对应墙板区格数目以及墙板区格宽高比,编制了立柱最大弯矩计算表格。考虑墙板与立柱的协同受力作用,以有效宽度范围内的墙板与立柱组成组合截面共同抗弯,修正立柱正截面强度计算方法。研究结果表明:在墙板与立柱组合结构体系中,随着墙板壁厚增大或墙板宽度减小,墙板的抗弯贡献提高;随着立柱截面惯性矩增大或立柱横向支撑间距减小,墙板的抗弯贡献降低。根据对工程常用几何构造的除尘器箱体结构计算统计,偏于安全地提出了立柱截面模量统一放大系数。相比于传统工程简化内力计算方法,工程设计人员可以利用该文提出的方法方便、准确地计算立柱内力最大截面的正应力和剪应力,从而设计出安全经济的立柱截面。

关 键 词:除尘装备支承钢结构  内力计算  墙板-立柱结构体系  横向荷载  有限元分析
收稿时间:2018-03-13
修稿时间:2019-05-14

INTERNAL FORCE EVALUATION OF COLUMNS IN ELECTROSTATIC PRECIPITATOR CASINGS UNDER TRANSVERSE LOADS CONSIDERING THE COOPERATIVE LOAD BEARING OF COLUMNS AND WALLBOARDS
QIAN Hai-feng, ZHAO Jing-tong, WANG Yuan-qing, WANG Deng-feng. Internal force evaluation of columns in electrostatic precipitator casings under transverse loads considering the cooperative load bearing of columns and wallboards[J]. Engineering Mechanics, 2019, 36(7): 227-237,247. DOI: 10.6052/j.issn.1000-4750.2018.03.0134
Authors:QIAN Hai-feng  ZHAO Jing-tong  WANG Yuan-qing  WANG Deng-feng
Affiliation:1.School of Environment and Civil Engineering, Jiangnan University, Wuxi 214122, China;;2.Department of Civil Engineering, Tsinghua University, Beijing 100084, China
Abstract:The structure and loading conditions of the enclosed structure of precipitator casings are highly complicated.Currently,there is no accurate method to calculate the internal force distribution in the columns of precipitator casings under transverse loading.In this paper,we investigate a method to calculate both the internal force and strength of precipitator casing columns when a transverse load is directly applied to the wallboard.Both theoretical and finite element analyses are conducted.To effectively study the transferring mechanism of the transverse load,a block of wallboard is regarded as an independent plate with simply supported edges separated by upper and lower neighboring stiffeners and columns on the left and right sides.Concentrated forces are transferred at the location of each stiffener,and nonuniformly distributed loads are transferred between the stiffeners.The column is regarded as an elastic multi-span continuous beam and the maximum bending moment and shear force are evaluated using the moment distribution method.Calculation tables for the maximum bending moment of various columns are determined based on the number of column spans,the number of wallboard blocks in the range of the corresponding column span and the aspect ratio of the wallboard block.Considering the load bearing interaction between the column and wallboard,a composite section is proposed to revise the strength evaluation method for the normal cross sections of columns.A composite section consists of an H-shaped column and the wallboard within the effective width.The results show that for a composite structure composed of a wallboard and a column,the contribution of the wallboard to the bending resistance increases as the wallboard thickness increases or as the wallboard width decreases.The contribution of the column to the bending resistance increases as the inertial moment of the column section increases or as the column span decreases.Based on the statistics of the computation results for the precipitator casings with usual geometries in engineering practice,a unified magnification factor for the column section modulus is proposed on the safe side.Compared to the conventional simplified internal force calculation methods,the proposed calculation method can more conveniently and accurately evaluate the maximum normal and shear stresses for a column section to assist the design of safe and economical column sections under transverse loading.
Keywords:steel structure of precipitators  internal force evaluation  wall-column structural system  transverse loading  finite element method
本文献已被 维普 万方数据 等数据库收录!
点击此处可从《工程力学》浏览原始摘要信息
点击此处可从《工程力学》下载全文
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号