摘要
导管桨结构与飞机薄壁结构类似,而国内不具备成熟的导管桨设计标准。针对某中型气垫船导管桨结构,分析传力路线,建立导管桨有限元模型,采用有限元方法开展了8种工况下的静力特性和稳定性分析,并且研究了不同蒙皮压力对部件应力水平的影响。结果表明:导管桨在各工况下应力集中区域均位于前拉杆及其接头的连接区域,不同蒙皮压力对该结构重要部件的应力影响较小;最大位移变形位于航左上舵承区域,可达7.123 mm;并且结构不会发生屈曲失稳。该研究结果得到了结构薄弱区域,可为后续结构优化提供参考。
The structure of the ducted propeller is similar to the thin-walled structure of the aircraft,but there is no ma-ture design standard for the ducted propeller in China.For the ducted propeller structure of a medium-sized hovercraft,the force transmission route is analyzed,the finite element model of the ducted propeller is established,the static characteristics and stability analysis under eight working conditions are carried out by using the finite element method.Furthermore,the ef-fect of different skin pressures on the stress level of the component is studied.The results show that the stress concentration area of the ducted propeller is located in the connection area of the front tension bar and its joint,and different skin pressures have little effect on the stress of the important parts of the structure;the maximum displacement is located in the left upper rudder bearing area,up to 7.123 mm,the buckling instability of the ducted propeller will not occur.The analysis of the re-search results has obtained the weak area of the structure,which can further provide reference for the follow-up structural op-timization.
作者
熊宇超
陈清良
蒋建军
甘国龙
王芳丽
童明波
XIONG Yu-chao;CHEN Qing-liang;JIANG Jian-jun;GAN Guo-long;WANG Fang-li;TONG Ming-bo(AVIC Chengdu Aircraft Industrial(GROUP)Co.Ltd.,Chengdu 610092,China;College of Mechanical&Electrical Engineering,Jinling Institute of Technology,Nanjing 211169,China;College of Aerospace Engineering Nanjing University of Aeronautics and Astronautics,Nanjing 210016,China)
出处
《舰船科学技术》
北大核心
2023年第18期32-37,共6页
Ship Science and Technology
基金
国家自然科学基金资助项目(52075232)
江苏省自然科学基金资助项目(BK20201112)
江苏高校优势学科建设工程资助项目(PAPD)。
关键词
气垫船
导管桨
有限元分析
应力分布
稳定性
hovercraft
ducted propeller
finite element analysis
stress distribution
stability
