博碩士論文 109323036 詳細資訊




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姓名 張益誠(Yi-Cheng Zhang)  查詢紙本館藏   畢業系所 機械工程學系
論文名稱 整合多層液態金屬線圈發電機之研製
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摘要(中) 本研究成功利用液態金屬直寫製程,製作出可配合環形磁鐵運作之旋轉發電機線圈,並且調整PDMS之厚度減少密封層與黏合層改善感應電壓,實現可用於可伸縮電子元件、印刷電路製作之技術。配合製程差異更改線圈直寫路徑方式,運用繞組因數描述繞組匝數增加之實際電壓疊加情形。並以最大電壓做為比較依據,選擇最佳匝數以規畫實際直寫路徑,同時達成堆疊多層線圈並製作相同兩組放置磁鐵兩側以增加線圈發電量,經由半波整流不須經過倍壓電路即可驅動鍺電晶體。
摘要(英) In this study, the liquid metal direct writing process was successfully used to fabricate a rotating generator coil that can operate with a ring magnet, and the thickness of the PDMS was adjusted to reduce the sealing layer and the adhesive layer to improve the induced voltage and realize the application of scalable electronic components and technology of printed circuits. We change the direct writing path of the coil according to the process difference, and use the winding factor to describe the actual voltage superposition of the increase in the number of winding turns. We take the maximum voltage as a comparison basis and choose the best number of turns to plan the actual direct writing path. At the same time, we place two sets of coils on both sides of the magnet to increase the power generation. Lastly, the germanium transistors can be driven by half-wave rectification without going through a voltage doubler circuit.
關鍵字(中) ★ 液態金屬
★ 旋轉發電機
關鍵字(英) ★ Liquid metal
★ Rotational generator
論文目次 一、緒論 1
1-1 前言 1
1-2 文獻回顧 1
1-2-1 電磁式旋轉發電機 1
1-3 軟性電子元件 4
1-3-1 非液態金屬元件 4
1-3-2 液態金屬元件 4
二、基礎理論 6
2-1 感應電壓基礎理論 6
2-1-1 線圈轉速與電氣頻率 6
2-1-2 線圈之感應電動勢 6
三、元件設計與製程 11
3-1 材料介紹 11
3-1-1 液態金屬(eGaInSn) 11
3-1-2 PDMS 12
3-2 線圈規劃 13
3-2-1 線圈纏繞方式 13
3-2-2 線圈繞組優化 14
3-3 製程介紹 17
3-3-1 金屬直寫種類 17
3-3-2 金屬直寫設備 19
3-3-3 金屬直寫壓力設定 20
3-3-4 直寫基板製備 21
3-3-5 線路密封、薄膜組裝 22
3-3-6 多層線圈製作程序 24
3-3-1 線圈各層結構介紹 27
四、發電模擬 28
4-1 模擬設定 28
4-2 模擬結果 35
五、實驗架設與量測 38
5-1 實驗架設 38
5-2 半波整流 40
5-3 實驗結果 41
六、結論 45
七、參考文獻 48
參考文獻 1. 馮耀鋆,「三維導電微成型技術開發應用於微機電系統之研究」, 國立中央大學,博士論文,民國107年。
2. 魏子鈞,「液態金屬線圈應用於發電機之研究」,國立中央大學,碩士論文,民國110年。
3. Niroomand, M. and H.R. Foroughi, A rotary electromagnetic microgenerator for energy harvesting from human motions. Journal of Applied Research and Technology, 2016. 14(4): p. 259-267.
4. Dinulovic, D., et al., Dual-Rotor Electromagnetic-Based Energy Harvesting System for Smart Home Applications. IEEE Transactions on Magnetics, 2021. 57(2): p. 1-5.
5. Fan, K., et al., An eccentric mass-based rotational energy harvester for capturing ultralow-frequency mechanical energy. Energy Conversion and Management, 2021. 241.
6. Peyman Fayyaz Shahandashti, H.P., Amir Jahanshahi,Hassan Ghafoorifard, Fabrication of Stretchable Interconnects Embedded in Biocompatible Elastomers. IEEE Access, 2018.
7. Boley, J.W., et al., Direct Writing of Gallium-Indium Alloy for Stretchable Electronics. Advanced Functional Materials, 2014. 24(23): p. 3501-3507.
8. Kamper, M.J., W. Rong-Jie, and F.G. Rossouw, Analysis and Performance of Axial Flux Permanent-Magnet Machine With Air-Cored Nonoverlapping Concentrated Stator Windings. IEEE Transactions on Industry Applications, 2008. 44(5): p. 1495-1504.
9. Wang, X., et al., Electromagnetic Design and Analysis of Axial Flux Permanent Magnet Generator With Unequal-Width PCB Winding. IEEE Access, 2019. 7: p. 164696-164707.
10. Dickey, M.D., Stretchable and Soft Electronics using Liquid Metals. Adv Mater, 2017. 29(27).
11. Liu, T., P. Sen, and C.-J. Kim, Characterization of Nontoxic Liquid-Metal Alloy Galinstan for Applications in Microdevices. Journal of Microelectromechanical Systems, 2012. 21(2): p. 443-450.
12. Neumann, T.V. and M.D. Dickey, Liquid Metal Direct Write and 3D Printing: A Review. Advanced Materials Technologies, 2020. 5(9).
13. Cook, A., et al., Shear‐Driven Direct‐Write Printing of Room‐Temperature Gallium‐Based Liquid Metal Alloys. Advanced Engineering Materials, 2019. 21(11).
14. Cordero, R., et al., Micro-rotational electromagnetic generator for high speed applications. IEEE Access, 2012.
15. Dickey, M.D., et al., Eutectic Gallium-Indium (EGaIn): A Liquid Metal Alloy for the Formation of Stable Structures in Microchannels at Room Temperature. Advanced Functional Materials, 2008. 18(7): p. 1097-1104.
16. Lin, Y., et al., Vacuum filling of complex microchannels with liquid metal. Lab Chip, 2017. 17(18): p. 3043-3050.
17. Khan, M.R., J. Bell, and M.D. Dickey, Localized Instabilities of Liquid Metal Films via In-Plane Recapillarity. Advanced Materials Interfaces, 2016. 3(23).
18. Gannarapu, A. and B.A. Gozen, Freeze-Printing of Liquid Metal Alloys for Manufacturing of 3D, Conductive, and Flexible Networks. Advanced Materials Technologies, 2016. 1(4)
指導教授 陳世叡 審核日期 2022-9-26
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