研究生: |
賴俊宏 Jyun-Hong Lai |
---|---|
論文名稱: |
手機 3D 列印系統低分離力樹脂槽之開發研究 Developed of Mobile Phone 3D Printer Resin Tank with Low Separation Force |
指導教授: |
鄭正元
Jeng-Ywan Jeng |
口試委員: |
林宗翰
Tzunghan Lin 吳俊逸 Jun-Yi Wu |
學位類別: |
碩士 Master |
系所名稱: |
工程學院 - 機械工程系 Department of Mechanical Engineering |
論文出版年: | 2018 |
畢業學年度: | 106 |
語文別: | 中文 |
論文頁數: | 86 |
中文關鍵詞: | 手機3D列印 、低分離力 、樹脂槽 |
外文關鍵詞: | mobile phone 3D printing, low separation force, resin tank |
相關次數: | 點閱:303 下載:0 |
分享至: |
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報 |
本論文為對T3D公司手機3D列印系統之樹脂槽開發所進行的研究,研究目的為找出適合此樹脂槽量產計畫之製作方式以及透過製程參數的調整來降低分離力。
在下照式光固化3D列印中,影響列印品質以及成敗的主要因素為固化後之樹脂與樹脂槽底部脫離產生之分離力,使用物理方法在薄膜上建構微結構或是使用化學方法抑制底部樹脂附著於樹脂槽底部為目前常見的做法,但是在此量產計畫中並不符合成本效益,故本研究透過探討樹脂槽中薄膜張力與分離力之關係,找出合適之製程參數以達到降低分離力之效果。
論文最後對T3D樹脂槽與市售下照式光固化列印機Nova3D樹脂槽進行分離力之比較,比較結果發現Nova3D樹脂槽之分離力值為14.63N,T3D樹脂槽最低的分離力值為1.69N,遠優於Nova3D樹脂槽。
This paper is a study on the development of resin tanks for T3D mobile phone 3D printing system. The purpose of the research is to find out the best parameters to produce resin tank, make it suitable for production plan and adjust the process parameters to reduce the separation force of resin tank.
In the bottom-up photopolymerization process, the main factors affecting print quality and success rate is the separation force between the cured resin and the bottom of the resin tank. It is a common method to reduce the separation force by using a physical method to construct a microstructure on a film or using a chemical method to prevent the cured resin from sticking on bottom of the resin tank, but these methods are not economical in this production plan; therefore, this study discuss the relationship between film tension and separation force in resin tank, and try to find out the appropriate process parameters to reduce the separation force.
Finally, compare the separation force of T3D resin tank with the commercially available photocuring printer Nova3D resin tank. The result shows that the separation force of the Nova3D resin tank is 14.63N; however, the lowest separation force value of T3D resin tank is 1.69N, which is much better than Nova3D resin tank.
[1] 前景看好!?HP:3D列印市場2021年產值將至180億美金
(https://www.ettoday.net/news/20170613/944416.htm#ixzz5LlrQQO1X)
[2] 3D列印光固化技術夯 新創企業朝創客、教育市場布局 (https://www.digitimes.com.tw/iot/article.asp?cat=158&cat1=20&id=0000524851_N7C7CBZV6LF9IJ0BTHVVQ)
[3] 吳宥賢, ”光固化快速成型系統製作3D 組織工程支架”,
“Developed of 3D Printer Resin Tank with Low Separation Force and High Price-Performance Ratio”,國立台灣科技大學機械工程研究所, 碩士論文, 2017.
[4] 鄭正元、江卓培、林宗翰等, “3D列印基層製造技術與應用”
[5] Industry, 3D Printing “The Free Beginner’s Guide - Processes. 3D Printing Industry.”
[6] 沈昌和,”動態光罩技術研發與其於微小3D元件之製作”,國立台灣科技大學機械工程系 碩士學位論文 中華民國九十二年月。
[7] 陳茂揚,”光固化快速成型系統製作3D組織工程支架”,國立台灣科技大學機械工程系碩士學位論文中華民國九十七年六月。
[8] 何怡青, 白勝方, 楊淑芬, 李士元,“樹脂類材料的聚合及其評估”,牙醫學雜誌, 第20-28頁, 2010。
[9] J. R. Tumbleston, D. Shirvanyants, N. Ermoshkin, R. Janusziewicz, A. R. Johnson, D. Kelly, K. Chen, R. Pinschmidt, J. P. Rolland, A. Ermoshkin, E. T. Samulski, and J. M. DeSimone, “Continuous liquid interface production of 3D objects,” Science, vol. 347, no. 6228, pp. 1349–1352, 2015.
[10] J. M. Desimone, A. ERMOSHKIN, N. ERMOSHKIN, and E. T. Samulski, “Continuous liquid interphase printing,” Aug. 2014.
[11] J. M. Desimone, A. ERMOSHKIN, N. ERMOSHKIN, and E. T. Samulski, “Method and apparatus for three-dimensional fabrication with feed through carrier,” Nov. 2014.
[12] Carbon3D, “Continuous Liquid Interface Production.”
(http://www.carbon3d.com/clip-process), accessed June 11, 2017.
[13] Newpro3D, Super Fast 3D Printer, “World’s Fastest 3D Printer of the Day | ILITM Technology” (http://newpro3d.com/ili-technology/), accessed June 11, 2017
[14] Nexa 3D, “LSPc Technology”
(https://www.nexa3d.com/lspc-technology/), accessed June 11, 2017.
[15] Y. Chen and C. Zhou, “Digital mask-image-projection-based additive manufacturing that applies shearing force to detach each added layer,” Nov. 2013.
[16] 蕭高智 ”光固化立體造型裝置” 中華民國 專利
[17] JieJin, “A vibration-assisted method to reduce separation force for stereolithography,”
[18] 張富騰, “智慧型手機式3D 列印系統開發之研究,” Smart phonetype research and development of 3D printing systems”, 國立台灣科技大學機械工程研究所, 碩士論文, 2015.
[19] 許峻豪, “低功率可見光固化製程之分析與研究,” Analysis andresearch of low energy visible light photopolymerization, 國立台灣科技大學機械工程研究所, 碩士論文, 2016.
[20] 劉德風, “行動裝置式光固化3 D 列印系統之開發與研究,” Research and Development of Mobile Device Vat
Photopolymerization 3D Printing System, 國立台灣科技大學機械工程研究所, 碩士論文, 2017.
[21] T3D, Mobile 3D Printer,” The World's First Mobile Multi-Functional 3D Printer”
[22] 葉至翔, “下照式光固化3D列印系統分離應力分析與研究,” Research andAnalysis of Separating Stress on Bottom-Expose Stereolithography 3D Printing System, 國立台灣科技大學機械工程研究所, 碩士論文, 2016.
[23]小米台灣站, (https://www.mi.com/tw/)
[24] Acer, (https://www.acerdisplay.com/)