淡江大學機構典藏:Item 987654321/111419
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    題名: 內共振之多壁奈米碳管減振研究
    其他題名: Study of vibration mitigation on multiple-walled carbon nano tube with internal resonance
    作者: 徐子薇;Hsu, Tzu-Wei
    貢獻者: 淡江大學航空太空工程學系碩士班
    王怡仁;Wang, Yi-Ren
    關鍵詞: 非線性振動;內共振;奈米碳管;凡得瓦力;彈性基材;nonlinear vibration;Internal Resonance;carbon nanotubes;van der Waals forces;Elastic Foundation
    日期: 2016
    上傳時間: 2017-08-24 23:52:23 (UTC+8)
    摘要: 本研究主體為兩端鉸接之多層相疊2D非線性樑(multi-layered-beam (MLB)),此樑之下方以三次方非線性彈簧支撐之, 以模擬多壁奈米碳管置放於彈性基材之振動行為。利用牛頓第二定律、三維尤拉角座標轉換和泰勒展開式的結合以得到運動方程,之後使用多尺度法( Method of multiple scales ,MOMS)分析系統於穩態固定點(Fix Points)各模態之頻率響應。首先研究單壁奈米碳管及多壁奈米碳管置放於彈性基材之內共振現象,後續將施加一顆奈米粒子(Nano partical)於碳管最上層當作減振器Tuned Mass Damper (TMD),考慮粒子之各種質量、彈性係數、阻尼係數及位置之組合,以期達到避開I.R.及減振之效益。本文第二部份則為分析多層奈米碳管置於彈性基材之振動現象。利用MOMS分析各層CNT及各振動模態之頻率關係,以判斷內共振之可能性,最後以一Nano particle嘗試抑制此多層奈米碳管系統之振動現象。本研究將提供最佳Nano partical的質量比、彈性係數及阻尼係數,並建議可達到最佳減振效果之擺放位置。以做為產學界未來奈米研究之參考。
    We considered the multi-walled carbon nanotubes (MWCNTs) with interlayer van der Waals forces resting on a nonlinear elastic foundation. A nano-particle was applied on the top layer of the tube which was modeled as a point load. The effects of the elastic foundation and the interlayer van der Waals forces on the nanotubes stability were studied. The vibration of the carbon nanotube (CNT) was simulated by a hinged-hinged nonlinear Bernoulli-Euler beam with stretching effect. We analyzed this nonlinear system using the method of multiple scales (MOMS). Fixed points plots were also used to facilitate the observation of internal resonance. This made it possible for us to study the influence of nonlinear vibrations of the elastic beam (the CNT). The internal resonance was found on a single carbon nanotube resting on an elastic foundation (the matrix). However, no internal resonance happened in the MWCNT system due to its complicate frequencies between the beams. This prompted us to add a nano particle as the tuned mass damper (TMD) on the elastic beam in order to suppress internal resonance and vibrations. We examined the influence of the mass and location of the TMD as well as damping and spring coefficients on the damping effects. Analysis data were presented in graphs, including 3D maximum amplitude plots of the modes and 3D maximum amplitude contour plots (3D MACPs). The characteristics of the position of the particle load on the nanotubes vibration were examined. The parameters of the elastic foundation, interlayer van der Waals forces, and the position of the particle load to induce the smallest vibration and the most stable condition were concluded. As far as we know, no previous study has employed combinations of this type of TMD to MWCNTs. Our approach to damping is comprehensive in practical applications.
    顯示於類別:[航空太空工程學系暨研究所] 學位論文

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