摘要
以无极绳单轨吊行进装置为研究对象,对主板和行走轮进行了结构改进,利用ANSYS workbench对主板的侧板进行了目标驱动优化和拓扑优化,设置侧板厚度最小化、变形不大于0.4 mm、载荷最大化的优化目标,得出了各参数符合优化条件的最佳尺寸,通过拓扑优化找出了侧板上能够去除材料的区域。
Taking the traveling device of endless rope monorail equipment as the object of study , the structure of motherboard and travelling wheel was improved,it has made the objective driven optimization and topological optimization for side panel by ANSYS workbench .Using the minimum of side panel thickness,deformation of not more than 0.4 mm and maximum of load as the optimal object , obtained the best size in the optimization conditions.By topological optimization,the regional material of the side panel that can be removed are found.
出处
《煤炭技术》
CAS
北大核心
2016年第10期282-284,共3页
Coal Technology
基金
安徽省科技攻关项目(1301022074)
关键词
单轨吊
目标驱动优化
拓扑优化
monorail
goal-driven optimization
topology optimization
作者简介
陈凯旋(1992-),安徽蚌埠人,安徽理工大学在读硕士研究生,研究方向:智能矿山机械设计,电子信箱:Chenkx2014@163.com.
