邮船大跨距板架参数化建模和动力学分析程序开发
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摘要
针对豪华邮船大跨距板架静力学和动力学分析需要进行大量繁琐建模工作的问题,研究NAPA、MSC Patran/Nastran等多个软件协同运行的方法,借助Visual Studio开发流程化设计程序,并通过Isight优化软件验证程序的适用性。该程序可实现邮船多层大跨距板架设计的参数化建模和自动分析计算,从而快速获得多方案设计结果,提高设计和分析效率。
As to the issue that the static and dynamic analysis on the long-span frame of luxury mail ships requires lots of cumbersome modeling works,the collaborative operation method is researched using NAPA and MSC Patran/Nastran. The process design program is developed with Visual Studio. The applicability of the program is verified through Isight optimization software. The parametric modeling and automatic analysis and the calculation of multi-floor and long-span frame design on mail ships can realized using this program,the multi-solution design results can obtained fleetly,and the design and analysis efficiency can be improved.
As to the issue that the static and dynamic analysis on the long-span frame of luxury mail ships requires lots of cumbersome modeling works,the collaborative operation method is researched using NAPA and MSC Patran/Nastran. The process design program is developed with Visual Studio. The applicability of the program is verified through Isight optimization software. The parametric modeling and automatic analysis and the calculation of multi-floor and long-span frame design on mail ships can realized using this program,the multi-solution design results can obtained fleetly,and the design and analysis efficiency can be improved.
引文
[1]李兰美,黄斐,陈明铭.豪华邮船建造特点初步分析[J].造船技术,2014(2):10-26.
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[3]丁爱兵,汪学峰.船舶综合设计软件系统中NAPA的集成研究[J].船舶工程,2014(2):91-94.DOI:10.13788/j.cnki.cbgc.2014.0055.
[4]何祖平,王德禹.基于MSC Patran二次开发的结构参数化建模及其集成开发环境[J].船海工程,2005(2):17-20.
[5]NAPA.NAPA Users’Manuals 2013[M].Helsinki:NAPA Ltd.,2013.
[6]MSC Software Corporation.MSC Patran 2012 PCL Reference Manual,Volume 1:Function Descriptions[M].Santa Ana:MSC Software Corporation,2012.
[7]MSC Software Corporation.MSC Patran 2012 PCL Reference Manual,Volume 2:Code Examples[M].Santa Ana:MSC Software Corporation,2012.
[8]马静敏,沈友徽,李华.基于Isight的油船槽形横舱壁优化设计[J].船海工程,2005(1):35-37.
[9]罗仁杰,邱伟强,蔡诗剑,等.船体纵骨上附连挺筋软踵形状参数优化[J].船舶与海洋工程,2016,32(6):39-48.DOI:10.14056/j.cnki.naoe.2016.06.007.
[10]周素素,夏利娟.全船结构静动态优化设计[J].振动与冲击,2013,32(23):69-74.
[11]许华文,肖熙.基于模拟退火算法的舰船中剖面优化设计[J].上海交通大学学报,2000,34(1):95-98.
[12]姜欣,方立桥,李明,等.Isight参数优化理论与实例详解[M].北京:北京航空航天大学出版社,2012:193-196.
[2]李晓川.邮船建造梦,理想很丰满[J].中国船检,2015(10):42-45.
[3]丁爱兵,汪学峰.船舶综合设计软件系统中NAPA的集成研究[J].船舶工程,2014(2):91-94.DOI:10.13788/j.cnki.cbgc.2014.0055.
[4]何祖平,王德禹.基于MSC Patran二次开发的结构参数化建模及其集成开发环境[J].船海工程,2005(2):17-20.
[5]NAPA.NAPA Users’Manuals 2013[M].Helsinki:NAPA Ltd.,2013.
[6]MSC Software Corporation.MSC Patran 2012 PCL Reference Manual,Volume 1:Function Descriptions[M].Santa Ana:MSC Software Corporation,2012.
[7]MSC Software Corporation.MSC Patran 2012 PCL Reference Manual,Volume 2:Code Examples[M].Santa Ana:MSC Software Corporation,2012.
[8]马静敏,沈友徽,李华.基于Isight的油船槽形横舱壁优化设计[J].船海工程,2005(1):35-37.
[9]罗仁杰,邱伟强,蔡诗剑,等.船体纵骨上附连挺筋软踵形状参数优化[J].船舶与海洋工程,2016,32(6):39-48.DOI:10.14056/j.cnki.naoe.2016.06.007.
[10]周素素,夏利娟.全船结构静动态优化设计[J].振动与冲击,2013,32(23):69-74.
[11]许华文,肖熙.基于模拟退火算法的舰船中剖面优化设计[J].上海交通大学学报,2000,34(1):95-98.
[12]姜欣,方立桥,李明,等.Isight参数优化理论与实例详解[M].北京:北京航空航天大学出版社,2012:193-196.