Open Access Article
Advances in Constructional Engineering. 2022; 2: (2) ; 103-108 ; DOI: 10.12208/j.ace.20220056.
Structural design and analysis of bamboo skin bridge
竹皮材料桥梁的结构设计与分析
作者:
孙野 *,
许建政,
徐赫璇,
赵征宇,
王子健
沈阳航空航天大学 辽宁沈阳
*通讯作者:
孙野,单位:沈阳航空航天大学 辽宁沈阳;
发布时间: 2022-08-04 总浏览量: 375
PDF 全文下载
引用本文
万方数据(WANFANG DATA)
摘要
在给定的设计空间中使用竹皮材料设计出质量轻,刚度最大,承载能力强的桥梁。通过拓扑优化技术用matlab求解拓扑优化SIMP法对重要的桥梁构件进行优化设计。由midas以及ansys等有限元软件对桥梁构件以及桥梁进行力学分析。最终通过实际制作来验证该结构拓扑优化后在满足应有承载能力的前提下亦成功达到了减重的效果。
关键词: SIMP法;拓扑优化;有限元分析;实际制作
Abstract
In the given design space, bamboo skin material is used to design a bridge with light weight, maximum stiffness and strong bearing capacity. Through the topology optimization technology, MATLAB solves the topology optimization SIMP method to optimize the design of important bridge components. Finite element software such as Midas and ANSYS is used to analyze the mechanics of bridge components and Bridges. Finally, through the actual production to verify that the structure topology optimization in the premise of meeting the due bearing capacity also successfully achieved the effect of weight reduction.
Key words: SIMP method; Topology optimization; Finite element analysis; Practical production
参考文献 References
[1] 尹芳放,王伟伟,叶红玲,隋允康. 连续体结构拓扑优化的SIMP方法和ICM方法[C]//北京力学会第二十二届学术年会会议论文集.[出版者不详],2016:567-569.
[2] 闫建国,张琼燕.LQG/LTR控制在无人机飞行控制中的实现及仿真[J].计算机仿真,2009,26(05):44-47.
[3] O. Sigmund. A 99 line topology optimization code written in Matlab[J]. Structural and Multidisciplinary Optimization,2001,21(2):
[4] 马洪辉,冯益聪,董宇杰,吴小涛,顾勇.用于智能物流搬运的桥梁结构设计[J].机械制造,2021,59(10):35-36+43.
[5] 邹翼,王庆,程玉珍,邹鹏宇,曹文,孙新忠,黄思凝,杨文东.竹皮结构设计与制作分析[J].高等建筑教育,2018,27(04):73-81.
引用本文
孙野, 许建政, 徐赫璇, 赵征宇, 王子健, 竹皮材料桥梁的结构设计与分析[J]. 建筑工程进展, 2022; 2: (2) : 103-108.