|本期目录/Table of Contents|

[1]吴和保,龙玉阳,胡汉华,等.吊耳焊缝应力分析及其结构设计[J].武汉工程大学学报,2012,(4):69-71.
 WU He\|bao,LONG YU\|yang,HU Han\|hua,et al.Analysis of stress and structure design in lifting lug welding[J].Journal of Wuhan Institute of Technology,2012,(4):69-71.
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吊耳焊缝应力分析及其结构设计(/HTML)
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《武汉工程大学学报》[ISSN:1674-2869/CN:42-1779/TQ]

卷:
期数:
2012年4期
页码:
69-71
栏目:
机电与信息工程
出版日期:
2012-05-30

文章信息/Info

Title:
Analysis of stress and structure design in lifting lug welding
文章编号:
16742869(2012)04006903
作者:
吴和保1龙玉阳1胡汉华2余经炭2
1.武汉工程大学机电工程学院,湖北 武汉 430074;2.武汉纽威制药机械有限公司,湖北 武汉 430065
Author(s):
WU He\|bao1LONG YU\|yang1 HU Han\|hua2YU Jing\|tan2
1.School of Techtronic Engineering, Wuhan Institute of Technology College Wuhan 430074,China;
2.Wuhan Newway Pharmaceutical Machine Limited Company,Wuhan 430065,China
关键词:
焊缝应力有限元分析
Keywords:
weldstressfinite element analysis
分类号:
TB115
DOI:
-
文献标志码:
AAdoi:103969/jissn16742869201204016
摘要:
为探究吊耳根部焊缝开裂现象,采用有限元分析软件对吊耳焊缝的应力应变过程进行分析,得到焊缝截面上的应力分布规律,罐身直径1 400 mm的中药提取罐吊耳根部焊缝承受最大拉应力为148.98 MPa,其大于焊缝许用应力,焊缝易产生裂痕.通过加入补强筋板的方式,使其危险截面最大应力值降至77.08 MPa,有效地预防了焊缝开裂.
Abstract:
In order to explore the crack at the end of lifting lug, the finite element analysis software was used to analyze stress\|strain process of lifting lug welding and stress distribution on weld section was displayed. When diameter of can\|body is 1400 millimeter and maxximum tensile stress of weld at the end of lifting lug is 148.98 MPa,which is greater than the allowable tensile stress,the crack at the weld seam is formed easily.By using reinforcement plate, the maximum tensile stress on weld dangerous section decreased to 77.08 MPa to prevent weld cracking effectively.

参考文献/References:

[1]中国有色工程设计研究总院.机械设计手册[M]. 北京:化学工业出版,2002.
[2]高勇,冯达辉,王敬国,等,基于ANSYS软件的钻机回转器齿轮齿根应力计算方法[J].矿山机械,2011(10):18-21.
[3]刑静忠,李军.ANSYS的建模方法和网格划分[J].中国水运:学术版.2007(11):36-39.
[4]周金枝,李小飞.AYSYS软件在压力容器结构优化设计中的应用[C]//湖北机械工程学会设计与传动学会、武汉机械设计与传动学会2008年学术年会论文集.陈定方.武汉:2008:102-105.
[5]张涛,吴艳阳,杨清. 立式撞击流反应器中桨叶优化设计[J].武汉工程大学学报,2011,33(5):78-81.

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