院报 ›› 2018, Vol. 35 ›› Issue (10): 143-147.DOI: 10.11988/ckyyb.20170483

• 水工结构与材料 • 上一篇    下一篇

深孔弧门三维拓扑优化应用研究

苏立钢a,b, 王正中a,b, 王岳a,b, 张雪才a,b, 徐超a,b   

  1. 西北农林科技大学 a.水利与建筑工程学院;
    b.旱区寒区水工程安全研究中心,陕西 杨凌 712100
  • 收稿日期:2017-04-28 出版日期:2018-10-01 发布日期:2018-10-22
  • 通讯作者: 王正中(1963-),男,陕西彬县人,教授,博士生导师,主要从事工程力学及水工结构工程方面的教学与科研工作。E-mail: wangzz0910@163.com
  • 作者简介:苏立钢(1991-),男,山东德州人,硕士研究生,主要从事水工结构非线性数值分析研究。E-mail: suligang3@163.com
  • 基金资助:
    国家自然科学基金项目(51179164)

Application of Topology Optimization Theory toThree-dimensional Design of Deep Orifice Radial Gate

SU Li-gang1,2, WANG Zheng-zhong1,2, WANG Yue1,2, ZHANG Xue-cai1,2, XU Chao1,2   

  1. 1.College of Water Resources and Architectural Engineering, Northwest A & F University, Yangling712100, China;
    2.Research Center on Water Engineering Safety in Arid and Cold Regions, Northwest A & FUniversity, Yangling 712100, China
  • Received:2017-04-28 Online:2018-10-01 Published:2018-10-22

摘要: 当前拓扑优化在水工闸门中的应用均为二维平面内的拓扑优化设计,未涉及闸门空间拓扑形式的问题。针对此,以某水电站工程深孔弧形钢闸门为例,基于连续体拓扑优化方法中的变密度法进行深孔弧门三维拓扑优化的应用研究,采用有限元软件对拓扑结果进行数值分析,并与工程中常用V型二支臂结构形式进行对比。结果表明采用三维拓扑优化得到的弧形闸门支臂最优拓扑构型为Y型树状结构,且在满足局部稳定要求前提下构建的箱型截面树状支臂结构承载能力满足规范要求。与规范中常用V型支臂结构进行对比分析,结果表明,拓扑优化的树枝状支臂结构整体位移减小15.8%,最大应力减小15%且整体分布更加均匀。三维拓扑优化方法可以应用于深孔弧形闸门的结构优化设计当中。

关键词: 深孔弧门, 三维拓扑优化, 变密度法, 有限元分析, 树状支臂结构

Abstract: At present, topology optimization of hydraulic gate all involves two-dimensional rather than spatial scale. In view of this, the simple isotropic material with penalization (SIMP) in continuum topology optimization method is adopted to the three-dimensional topology optimization of a deep orifice radial gate. Moreover, the topology result are simulated by finite element software, and are compared with the V-shaped dual-arm structure commonly used in engineering. The optimum topology design for radial gate arms is a tree structure, with the bearing capacity of the box section built under the requirements of local stability meeting specification standards. Comparison with V-shaped structure demonstrates that the tree structure obtained by topology optimization could reduce the holistic displacement by 15.8% and cut the maximum stress by 15% yet more evenly distributed.

Key words: deep orifice radial gate, three-dimensional topology optimization, SIMP, finite element analysis, tree structure

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