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国家高技术研究发展计划(2006AA04Z252)

作品数:3 被引量:17H指数:2
相关作者:毕树生郑礼成高俊李吉蔡月日更多>>
相关机构:北京航空航天大学更多>>
发文基金:国家高技术研究发展计划国家教育部博士点基金国家自然科学基金更多>>
相关领域:自动化与计算机技术航空宇航科学技术更多>>

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仿生蝠鲼机器鱼BH-RAY3的研制及水力实验被引量:9
2010年
通过对蝠鲼外形参数的设计和胸鳍变形机理的研究,研制了仿生蝠鲼机器鱼BH-RAY3。该机器鱼具有双柔性胸鳍,翼展620 mm,身长400 mm,最大航速1.09 DLS,外形阻力小,通过尾舵实现升降及转向。对BH-RAY3进行的水洞拖拽实验表明,随着拍动频率和幅度的增大,胸鳍推进力增大,在频率为1.0 Hz,幅度为24°时达到1.452 N;其次,对胸鳍被动变形形态的分析表明,柔性胸鳍同时产生0.25波长的弦向波和1个波长的展向波,与蝠鲼短波长、低频率的运动特点一致,验证了设计的合理性和可行性。
李吉毕树生高俊郑礼成
关键词:机器鱼
胸鳍摆动推进仿生鱼研究进展与分析被引量:2
2010年
作为一种新颖的应用于仿生机器鱼制作的推进模式,胸鳍摆动推进模式因其具有的独特优势而引起国内外科研人员的重视。本文系统介绍了国内外采用摆动胸鳍推进的仿生鱼的研究现状,重点分析了此类仿生鱼样机的结构特征和推进性能。通过对现有研究成果的分析,得出了胸鳍摆动推进式仿生的研究发展趋势。
蔡月日毕树生
Effect of Spanwise Flexibility on Propulsion Performance of a Flapping Hydrofoil at Low Reynolds Number被引量:6
2012年
Spanwise flexibility is a key factor influencing propulsion performance of pectoral foils. Performances of bionic fish with oscillating pectoral foils can be enhanced by properly selecting the spanwise flexibility. The influence law of spanwise flexibility on thrust generation and propulsion efficiency of a rectangular hydro-foil is discussed. Series foils constructed by the two-component silicon rubber are developed. NACA0015 shape of chordwise cross-section is employed. The foils are strengthened by fin rays of different rigidity to realize variant spanwise rigidity and almost the same chordwise flexibility. Experiments on a towing platform developed are carried out at low Reynolds numbers of 10 000, 15 000, and 20 000 and Strouhal numbers from 0.1 to 1. The following experimental results are achieved: (1) The average forward thrust increases with the St number increased; (2) Certain degree of spanwise flexibility is beneficial to the forward thrust generation, but the thrust gap is not large for the fins of different spanwise rigidity; (3) The fin of the maximal spanwise flexibility owns the highest propulsion efficiency; (4) Effect of the Reynolds number on the propulsion efficiency is significant. The experimental results can be utilized as a reference in deciding the spanwise flexibility of bionic pectoral fins in designing of robotic fish prototype propelled by flapping-wing.
BI ShushengCAI Yueri
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