桥式起重机主梁特殊截面应力分析
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摘要
随着国民经济建设的快速发展,大吨位桥式起重机在生产中得到了广泛的应用。大吨位桥式起重机工作频繁,经常满载甚至超负荷工作,运行速度高,工作环境恶劣,运行过程中存在频繁启动和制动,另外还受轨道不平、操作不当等引起的冲击载荷加上主梁跨端变截面主腹板和弯板连接处存在应力集中问题,而导致此处经常出现裂纹,另外,在上盖板开门、腹板开门等削弱部位的过渡圆角处存在应力较大的现象。所有这些直接影响起重机的使用性能和正常生产,给厂家和用户都造成了巨大的经济损失。而采用传统的力学解析方法对大吨位桥式起重机桥架结构特别是像主梁跨端变截面、上盖板开门处截面、腹板开门处截面等这些特殊截面处的应力状态进行计算分析时,计算公式繁多、复杂、且不易精确,很难精确反映其实际的应力状态。
本文以端梁非铰接式大吨位双梁桥式起重机为研究对象,借助Visual C++6.0开发工具,采用面向对象程序设计方法开发一套集传统常规计算和有限元分析于一体的软件,分别采用传统常规计算方法和有限元分析方法对主梁近端梁变截面、上盖板开门处截面、腹板开门处截面等特殊截面处的应力状态进行分析,并着力研究影响上述特殊截面处应力状态分布的各个因素及每个因素改变时应力状态的变化趋势。具体内容如下:
(1)运用传统常规计算方法分别计算主梁跨中截面、近端梁变截面、上盖板开门处截面、腹板开门处截面上的典型验算点的等效应力值;
(2)借助有限元分析软件ANSYS对桥架结构进行有限元分析,按实际的载荷分布进行加载、求解,分别得到主梁跨中截面、近端梁变截面、上盖板开门处截面、腹板开门处截面的等效应力分布云图;
(3)运用Visual C++6.0编写软件,实现传统常规计算和有限元分析的程序化,通过面向对象的程序界面改变相应参数即可得到所需的常规计算结果和有限元分析结果;
(4)借助常规计算和有限元分析软件,通过一系列的计算和分析,研究影响应力分布状态的各个因素,并通过对常规计算和有限元分析得到的结果进行分析比较,总结出相应结论。
With the rapid development of economic construction, the large tonnageoverhead crane has been widely used in production. Large tonnage overheadcrane work frequently, often fully loaded and even overloaded with work,running high-speed, poor working conditions, running with frequent starting andbraking, in addition to track grievances and improper operation caused by theimpact load with the main beam the junction of the main web of the cross-sidevariable cross-section and under the cover of stress concentration caused by hereoften cracks, in the lid to open the door, web open the door and weaken the partsof the fillet stress is large phenomenon. All of these directly affect the use ofcrane performance and normal production, manufacturers and users have causedhuge economic losses. The use of traditional mechanical analysis methodespecially like the cross side of the main beam of variable cross-section of largetonnage overhead crane bridge structure, on the cover to open the door at thecross-section, the stress state of the web to open the door at the cross section ofthese special section at the calculation and analysis of formulas, complex, anddifficult to precise, it is difficult to accurately reflect the actual stress state.
End beam non-articulated large-tonnage double girder overhead crane, withVisual C++6.0development tools, object-oriented programming to develop a setof conventional calculations and finite element analysis software inone,conventional calculation methods and finite element analysis methods wereused to the proximal beam, main beam, variable cross-section, on the cover toopen the door at the cross-section, the special section of the web to open thedoor at the section at the stress state analysis and efforts to study the impact ofthe special section at the stress statedistribution of the various factors and eachfactor to change the trend of the stress state. Details are as follows:
(1) The use of conventional calculation method were calculated in the crossof the main beam cross section, proximal beam variable cross-section, on thecover to open the door at the cross-section, typical checking point on the web toopen the door at the cross-section value of the stress;
(2) With the finite element analysis software ANSYS finite elementanalysis of bridge structure, according to the actual load distribution, load, weresolved by the main girder span section, the proximal beam variable cross-section,on the cover to open the door at the cross-section,web open the door at thecross-section of the equivalent stress contours;
(3) The use of Visual C++6.0to write software, conventional calculationand finite element analysis program,object-oriented programming interface tochange the corresponding parameters can be obtained by conventionalcalculation results and finite element analysis results;
(4) With the conventional calculation and finite element analysis software,through a series of calculations and analysis of various factors, stressdistribution and analyze the results obtained by conventional calculation andfinite element analysis, summed up the corresponding conclusions.
本文以端梁非铰接式大吨位双梁桥式起重机为研究对象,借助Visual C++6.0开发工具,采用面向对象程序设计方法开发一套集传统常规计算和有限元分析于一体的软件,分别采用传统常规计算方法和有限元分析方法对主梁近端梁变截面、上盖板开门处截面、腹板开门处截面等特殊截面处的应力状态进行分析,并着力研究影响上述特殊截面处应力状态分布的各个因素及每个因素改变时应力状态的变化趋势。具体内容如下:
(1)运用传统常规计算方法分别计算主梁跨中截面、近端梁变截面、上盖板开门处截面、腹板开门处截面上的典型验算点的等效应力值;
(2)借助有限元分析软件ANSYS对桥架结构进行有限元分析,按实际的载荷分布进行加载、求解,分别得到主梁跨中截面、近端梁变截面、上盖板开门处截面、腹板开门处截面的等效应力分布云图;
(3)运用Visual C++6.0编写软件,实现传统常规计算和有限元分析的程序化,通过面向对象的程序界面改变相应参数即可得到所需的常规计算结果和有限元分析结果;
(4)借助常规计算和有限元分析软件,通过一系列的计算和分析,研究影响应力分布状态的各个因素,并通过对常规计算和有限元分析得到的结果进行分析比较,总结出相应结论。
With the rapid development of economic construction, the large tonnageoverhead crane has been widely used in production. Large tonnage overheadcrane work frequently, often fully loaded and even overloaded with work,running high-speed, poor working conditions, running with frequent starting andbraking, in addition to track grievances and improper operation caused by theimpact load with the main beam the junction of the main web of the cross-sidevariable cross-section and under the cover of stress concentration caused by hereoften cracks, in the lid to open the door, web open the door and weaken the partsof the fillet stress is large phenomenon. All of these directly affect the use ofcrane performance and normal production, manufacturers and users have causedhuge economic losses. The use of traditional mechanical analysis methodespecially like the cross side of the main beam of variable cross-section of largetonnage overhead crane bridge structure, on the cover to open the door at thecross-section, the stress state of the web to open the door at the cross section ofthese special section at the calculation and analysis of formulas, complex, anddifficult to precise, it is difficult to accurately reflect the actual stress state.
End beam non-articulated large-tonnage double girder overhead crane, withVisual C++6.0development tools, object-oriented programming to develop a setof conventional calculations and finite element analysis software inone,conventional calculation methods and finite element analysis methods wereused to the proximal beam, main beam, variable cross-section, on the cover toopen the door at the cross-section, the special section of the web to open thedoor at the section at the stress state analysis and efforts to study the impact ofthe special section at the stress statedistribution of the various factors and eachfactor to change the trend of the stress state. Details are as follows:
(1) The use of conventional calculation method were calculated in the crossof the main beam cross section, proximal beam variable cross-section, on thecover to open the door at the cross-section, typical checking point on the web toopen the door at the cross-section value of the stress;
(2) With the finite element analysis software ANSYS finite elementanalysis of bridge structure, according to the actual load distribution, load, weresolved by the main girder span section, the proximal beam variable cross-section,on the cover to open the door at the cross-section,web open the door at thecross-section of the equivalent stress contours;
(3) The use of Visual C++6.0to write software, conventional calculationand finite element analysis program,object-oriented programming interface tochange the corresponding parameters can be obtained by conventionalcalculation results and finite element analysis results;
(4) With the conventional calculation and finite element analysis software,through a series of calculations and analysis of various factors, stressdistribution and analyze the results obtained by conventional calculation andfinite element analysis, summed up the corresponding conclusions.
引文
[1]王金诺,于兰峰.起重运输机械金属结构[M].北京:中国铁道出版社,2002.
[2]张质文,王金诺.起重机设计手册[M].北京:中国铁路出版社,1998.
[3]罗又新.起重运输机械[M].北京:冶金工业出版社,1993.
[4] M舍费尔,G帕耶尔.起重运输机械设计基础[M].北京:机械工业出版社,1991,5.
[5]刘永峰.施工起重机国内外发展状况[J].施工技术,2007,7(36):491—493.
[6] Chonghua Wang,Hua Li.A CAD/CAE system for structures of dockside containercranes[R].Proceedings of8th Biennial ASME Conference on Engineering SystemsDesign and Analysis,ESDA2006.2006.
[7]工程机械起重机行业发展现状分析[z].中国物流设备网http://china.56en.com.
[8]徐格宁.机械装备金属结构设计[M].北京:机械工业出版社,2009.
[9]孙靖民.现代机械设计方法[M].哈尔滨:哈尔滨工业大学出版社,2003.8.
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[11]谢友柏.现代设计理论和方法的研究[J].机械工程学报,2004,(4):1-9.
[12]李向东.浅谈起重机现代设计方法及其应用[J].起重运输机械,2008,2:10-12.
[13]朱德康,邹胜.起重机创新设计展望[J].起重运输机械,2007,2:1-4.
[14]丁俊武,韩域启等.现代产品设计理论研究综述[J].机械制造,2005,4:8-10.
[15]刘鸿文.材料力学[M].北京:高等教育出版社,2004.
[16]李廉锟.结构力学[M].北京:高等教育出版社,2004.
[17] GB/T3811-2008,起重机设计规范[S].北京:中国标准出版社,2008.
[18]张洪信.有限元基础理论与ANSYS应用[M].机械工业出版社,2006.
[19]周长城,胡仁喜,熊文波.ANSYS11.0基础与典型范例[M].电子工业出版社,2007.
[20]高耀东,刘学杰.ANSYS机械工程应用精华50例[M].电子工业出版社,2011.
[21]邓凡平.ANSYS10.0有限元分析自学手册[M].北京:人民邮电出版社,2007:91-120.
[22]魏良保,陶元芳,徐格宁.基于APDL语言的有限元三维参数化建模与分析[J].工程机械,2005(1):27-29.
[23]把婧,崔志远.基于ANSYS的桥式起重机主梁有限元分析平台[J].起重运输机械,2010,10:34-36.
[24]黄涛等.桥式起重机桥架的三维有限元分析[J].武汉科技大学学报,2009,6:23-25.
[25]薛继忠,易传云,王伏林.桥式起重机桥架结构的三维有限元分析[J].机械与电子,2004(8):12-15.
[26]李拔周,徐长生.基于ANSYS的100t龙门起重机结构有限元分析[J].起重运输机械,2008(3):12-14.
[27]迟毅林,刘道玉.波形腹板梁结构研究及其有限元分析[J].机械设计与制造,2005,2:20-22.
[28]方子帆,舒刚,朱大林.大跨度箱形梁的有限元计算分析[J].起重运输机械,2006(9):25-27.
[29]张宏生,陆念力.基于ANSYS的桥式起重机结构参数化建模与分析平台开发[J].起重运输机械,2008(2):34-37.
[30]张质文,虞和谦,王金诺等.起重机设计手册[M].北京:中国铁道出版社,1997:10-21.
[31]曾攀.有限元分析及应用[M].北京:清华大学出版社,2004:50-75.
[32]詹红霞,侯思颖等编著.Visual C++程序设计教程[M].北京:清华大学出版社,2007.
[33]魏亮,李春葆编著.Visual C++程序设计例学与实践[M].北京:清华大学出版社,2007.
[34]郑人杰,马素霞,马志毅.软件工程[M].北京:人民邮电出版社,2009:161-239.
[35] B W R Forde,R O Foschi,S F Stiemer.Object Oriented Finite ElementAnalysis[J].Computers and Structures,1990,34(3):355-374.
[36] T J Ross,L R Wagner,G F Luger.Object-Oriented Programming for ScientificCodes[J].Journal of Computing in Civil Engineering,1992,6(4):480-496.
[37] R I Mackie.Object-Oriented Programming ofthe Finite ElementMethod[J].InternationalJournal for Numerical Methods in Engineering,1992,35:425-436.
[38] Forde B W R Foschi R0,Stiemer S F.Object-oriented finite element analysis[J].Computers&Structures,1990,34(3):355-374.
[39]马振晗,胡晓译.软件工程学导论[M].北京:清华大学出版社,2008:187-203.
[40]陶元芳.机械工程软件技术基础[M].北京:机械工业出版社,2010:54-160.
[2]张质文,王金诺.起重机设计手册[M].北京:中国铁路出版社,1998.
[3]罗又新.起重运输机械[M].北京:冶金工业出版社,1993.
[4] M舍费尔,G帕耶尔.起重运输机械设计基础[M].北京:机械工业出版社,1991,5.
[5]刘永峰.施工起重机国内外发展状况[J].施工技术,2007,7(36):491—493.
[6] Chonghua Wang,Hua Li.A CAD/CAE system for structures of dockside containercranes[R].Proceedings of8th Biennial ASME Conference on Engineering SystemsDesign and Analysis,ESDA2006.2006.
[7]工程机械起重机行业发展现状分析[z].中国物流设备网http://china.56en.com.
[8]徐格宁.机械装备金属结构设计[M].北京:机械工业出版社,2009.
[9]孙靖民.现代机械设计方法[M].哈尔滨:哈尔滨工业大学出版社,2003.8.
[10]黄大巍,李风,毛文杰等.现代起重运输机械[M].北京:化学工业出版社,2006:5-8.
[11]谢友柏.现代设计理论和方法的研究[J].机械工程学报,2004,(4):1-9.
[12]李向东.浅谈起重机现代设计方法及其应用[J].起重运输机械,2008,2:10-12.
[13]朱德康,邹胜.起重机创新设计展望[J].起重运输机械,2007,2:1-4.
[14]丁俊武,韩域启等.现代产品设计理论研究综述[J].机械制造,2005,4:8-10.
[15]刘鸿文.材料力学[M].北京:高等教育出版社,2004.
[16]李廉锟.结构力学[M].北京:高等教育出版社,2004.
[17] GB/T3811-2008,起重机设计规范[S].北京:中国标准出版社,2008.
[18]张洪信.有限元基础理论与ANSYS应用[M].机械工业出版社,2006.
[19]周长城,胡仁喜,熊文波.ANSYS11.0基础与典型范例[M].电子工业出版社,2007.
[20]高耀东,刘学杰.ANSYS机械工程应用精华50例[M].电子工业出版社,2011.
[21]邓凡平.ANSYS10.0有限元分析自学手册[M].北京:人民邮电出版社,2007:91-120.
[22]魏良保,陶元芳,徐格宁.基于APDL语言的有限元三维参数化建模与分析[J].工程机械,2005(1):27-29.
[23]把婧,崔志远.基于ANSYS的桥式起重机主梁有限元分析平台[J].起重运输机械,2010,10:34-36.
[24]黄涛等.桥式起重机桥架的三维有限元分析[J].武汉科技大学学报,2009,6:23-25.
[25]薛继忠,易传云,王伏林.桥式起重机桥架结构的三维有限元分析[J].机械与电子,2004(8):12-15.
[26]李拔周,徐长生.基于ANSYS的100t龙门起重机结构有限元分析[J].起重运输机械,2008(3):12-14.
[27]迟毅林,刘道玉.波形腹板梁结构研究及其有限元分析[J].机械设计与制造,2005,2:20-22.
[28]方子帆,舒刚,朱大林.大跨度箱形梁的有限元计算分析[J].起重运输机械,2006(9):25-27.
[29]张宏生,陆念力.基于ANSYS的桥式起重机结构参数化建模与分析平台开发[J].起重运输机械,2008(2):34-37.
[30]张质文,虞和谦,王金诺等.起重机设计手册[M].北京:中国铁道出版社,1997:10-21.
[31]曾攀.有限元分析及应用[M].北京:清华大学出版社,2004:50-75.
[32]詹红霞,侯思颖等编著.Visual C++程序设计教程[M].北京:清华大学出版社,2007.
[33]魏亮,李春葆编著.Visual C++程序设计例学与实践[M].北京:清华大学出版社,2007.
[34]郑人杰,马素霞,马志毅.软件工程[M].北京:人民邮电出版社,2009:161-239.
[35] B W R Forde,R O Foschi,S F Stiemer.Object Oriented Finite ElementAnalysis[J].Computers and Structures,1990,34(3):355-374.
[36] T J Ross,L R Wagner,G F Luger.Object-Oriented Programming for ScientificCodes[J].Journal of Computing in Civil Engineering,1992,6(4):480-496.
[37] R I Mackie.Object-Oriented Programming ofthe Finite ElementMethod[J].InternationalJournal for Numerical Methods in Engineering,1992,35:425-436.
[38] Forde B W R Foschi R0,Stiemer S F.Object-oriented finite element analysis[J].Computers&Structures,1990,34(3):355-374.
[39]马振晗,胡晓译.软件工程学导论[M].北京:清华大学出版社,2008:187-203.
[40]陶元芳.机械工程软件技术基础[M].北京:机械工业出版社,2010:54-160.
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