Measurement of Vibrational Stiffness and Air Damping of Damselfly Wings

生物材料与纳米技术(英文) Pub Date : 2016-06-24 DOI:10.4236/JBNB.2016.73014
R. Talukder, K. Shivakumar
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Abstract

A simple cantilever beam vibration test method made of biomorph and insect wing, were used to measure the vibrational stiffness and the air damping of insect wings. Vibration tests were performed in vacuum pressures to atmosphere and the wing stiffness and air damping factor were measured. The test method was found to be a viable method for measuring wing stiffness, natural frequencies and mode shapes. The vibrational deformation of the insect wings was found to be combination of bending and torsion because of unsymmetrical geometry of wing. The measured stiffness (K) of damselfly wings varied from 0.18 to 0.31 N/m and the air damping ratio ranged from 0.72 to 0.79. The undamped natural frequency (fn) at 13 kPa varied from 249 to 299 Hz and at atmosphere it varied from 168 to 198 Hz.
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豆娘翅膀振动刚度和空气阻尼的测量
采用生物形态和昆虫翅膀组成的简单悬臂梁振动试验方法,对昆虫翅膀的振动刚度和空气阻尼进行了测量。在真空大气压下进行了振动试验,测量了机翼刚度和空气阻尼系数。试验结果表明,该方法是测量机翼刚度、固有频率和模态振型的可行方法。发现昆虫翅膀的振动变形是弯曲和扭转的结合,这是由于翅膀的几何形状不对称造成的。豆娘翅膀的刚度K值在0.18 ~ 0.31 N/m之间,空气阻尼比在0.72 ~ 0.79之间。在13千帕时,无阻尼固有频率(fn)在249 ~ 299赫兹之间变化,在大气中,它在168 ~ 198赫兹之间变化。
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生物材料与纳米技术(英文)
生物材料与纳米技术(英文)
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