- 學位論文
奈米碳管-熱固性高分子複合材之電壓調控相轉變:從剛性材料至阻尼材料
Controllable Phase Transition of Carbon Nanotubes/Thermo-setting Polymer by Voltage Modulation: From Rigid Materials to Absorbers
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摘要
本研究利用熱的方式調控熱固性高分子之相變化(玻璃轉換),使其切換力學材料至阻尼材料兩種極端的材料特性。加熱的來源選擇精準且方便外在調控的歐姆熱,可由加入奈米碳管改質熱固性高分子使其具有導電性並在施加電壓後產生熱能。實驗結果顯示,所使用之奈米碳管/環氧樹脂複合材料在室溫呈現約30%的能量吸收比,在加溫至80oC後可達到約90%之能量吸收比,並具均勻性與可逆性。主要可應用在突發振動發生時之結構制震系統設計,以及改進現有相關制震裝置(例如:制震壁)的效能。最後在其他機械性質如硬度、楊氏模數對溫度變化的量測中,探討相變化對機械性質的影響,並決定了此元件的可能應用工作溫度範圍。
並列摘要
A rigidity controllable material is designed by applying the thermo-induced phase transition (glass transition) of a thermo-setting polymer. This transition of a conductive MWNT/epoxy composite took place due to associated ohmic heat once a voltage was applied. Energy absorption percentage of an external impact changes from about 30% to 90% at room temperature and 80oC respectively, revealing that the originally rigid matrix is able to turn into a damping material rapidly when needed. Other mechanical properties such as hardness, Young’s modulus were also measured with varied temperature to understand the mechanism.
並列關鍵字
無資料參考文獻
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被引用紀錄
劉宣佑(2013)。使用熱處理改善奈米碳管/環氧樹脂複合材之分散性〔碩士論文,國立清華大學〕。華藝線上圖書館。https://doi.org/10.6843/NTHU.2013.00492
延伸閱讀
- 胡致偉(2011)。多壁奈米碳管/聚酯膠複合材料射出成形的結構控制〔碩士論文,國立交通大學〕。華藝線上圖書館。https://doi.org/10.6842/NCTU.2011.00512
- 林展慶(2006)。旋塗式奈米碳管場效電晶體製作與其電特性量測〔碩士論文,國立清華大學〕。華藝線上圖書館。https://www.airitilibrary.com/Article/Detail?DocID=U0016-1303200709270096
- Chi, C. Y. (2016). 玻璃轉換溫度以下奈米碳管/環氧樹脂介面增強阻尼性質:可程式化電控高強度阻尼 [doctoral dissertation, National Tsing Hua University]. Airiti Library. https://www.airitilibrary.com/Article/Detail?DocID=U0016-0411201614423977
- 葉秀倫(2009)。The Study of Synthesizing Vertical Aligned Multi-walled Carbon Nanotubes by Chemical Vapor Deposition and Its Application for Nanogenerator〔碩士論文,國立清華大學〕。華藝線上圖書館。https://www.airitilibrary.com/Article/Detail?DocID=U0016-1111200916021935
- Tung, F. K., Yoshimura, M., & Ueda, K. (2009). Direct Fabrication of Carbon Nanotubes STM Tips by Liquid Catalyst-Assisted Microwave Plasma-Enhanced Chemical Vapor Deposition. Journal of Nanomaterials, 2009(), 275-279. https://doi.org/10.1155/2009/612549