研究生: |
劉權紘 Quan-Hong Liu |
---|---|
論文名稱: |
以五軸加工機旋轉範圍挑選傾斜面加工之合適切削方向 Selecting Appropriate Cutting Tool Orientations for 3+2-axis Machining Based on the Rotation Range of a Five-axis Machine |
指導教授: |
林清安
Ching-An Lin |
口試委員: |
李維楨
Wei-Chen Lee 郭俊良 Chun-Liang Kuo |
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: | 2020 |
畢業學年度: | 108 |
語文別: | 中文 |
論文頁數: | 151 |
中文關鍵詞: | 3D CAD/CAM 、五軸加工機 、傾斜面加工 、Z-buffer理論 |
外文關鍵詞: | 3D CAD/CAM, Five-axis machine, 3+2 axis NC machining, Z-buffer theory |
相關次數: | 點閱:297 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 |
[1] M. Balasubramaniam, S.E. Sarma and K. Marciniak (2001)“Collision-free finishing toolpaths from visibility data," Computer-Aided Design, Vol. 35,No. 4, pp. 359-374.
[2] X. Li, J. Ren, K. Tang and Y. Zhou (2019) “A Tracking-Based Numerical Algorithm for Efficiently Constructing the Feasible Space of Tool Axis of a Conical Ball-End Cutter in Five-Axis Machining,"Computer-Aided Design, Vol. 117
[3] T. D. Tang (2014) “Algorithms for collision detection and avoidance for five-axis NX machining,"Computer-Aided Design, Vol. 51, pp. 1-17.
[4] W. C. Lee and C. C. Wei (2017) “Workspace digitization for five-axis machining,” International Conference on Applied System Innovation, pp. 144-146. 10.1109/ICASI.2017.7988368
[5] L. Chen, K. Xu, K. Tang (2015) “Collision-free tool orientation optimization in five-axis machining of bladed disk,"Journal of Computational Design and Engineering , Vol. 2, No. 4, pp. 197-205.
[6] B. Ezair (2018) “Automatic generation of globally assured collision free orientation for 5-axis ball-end tool-paths,"Computer-Aided Design, Vol. 102, pp. 171-181.
[7] G. Fu, H. Gong and J. Fu (2019), “Geometric error contribution modeling and sensitivity evaluating for each axis of five-axis machine tools based on POE theory and transforming differential changes between coordinate frames,"International Journal of Machine Tools and Manufacture, Vol 147, Article.103155.
[8] Y. Liu, M. Wan, W. J. Xing, Q. B. Xiao and W. H. Zhang (2018), “Generalized actual inverse kinematic model for compensating geometric erros in five-axis machine tools,"International Journal of Mechanical Sciences, Vol. 145, pp. 299-317.
[9]林子寬,「以球面雙圓法推導五軸加工之旋轉角通用公式」(2013),博士論文,臺灣科技大學機械工程系,台北市。
[10] Z. Yu, Chen, Z. Tong, N. Tao, and X. R. Feng (2016) “Tool orientation optimization for 3+2 axis CNC machining of sculptured surface,” Computer-Aided Design , Vol.77, pp. 60-72.
[11] M. Inui, S. Nagano and N. Umezu (2018) “Fast computation of accessibility cones for assisting 3+2 axis milling,” Computer-Aided Design and Applications, Vol.15, Issue.5, pp. 667-676.
[12] W. C. Lee, Y. T. Lee and C. C. Wei (2018) “Machining Error Compensation Based on the Reconstructed Free-Form Surfaces of CAD Models,” International Conference on System Science and Engineering, pp. 1-4. 10.1109/ICSSE.2018.8520157
[13] W. C. Lee, J. Y. Wang and C. C. Wei (2017) “Improving Machining Accuracy by Automatic Compensation Based on the Off-line Measurement,” International Conference on Consumer Electronics, 10.1109/ICCE-China.2017.7991107
[14]黃逸松,「三角網格模型之平滑化研究」(2008),碩士論文,中央大學機械工程學系,桃園市。
[15]李白峰,「由空間中點的群聚曲面特徵重建三角網狀物體」(2003),碩士論文,中原大學資訊工程學系,桃園市。
[16]高國智,「薄殼物件的脫模性研究」(2001),碩士論文,臺灣大學機械工程學系,台北市。
[17] M. W. Fu, A.Y.C. Nee and J.Y.H. Fuh (2002),“The application of surface visibility and moldability to parting line generation,"Computer-Aided Design, Vol. 34, Issue.6, pp. 469-480.
[18]陳漢明,「薄殼物件的脫模角」(2004),臺灣大學「台大工程」學刊,第九十二期,第135-144頁,台北市。
[19] W. C. Lee and C. C. Wei (2016),“Machinability analysis and setup optimization for five-axis machining,"International Conference on Applied System Innovation, 10.1109/ICASI.2016.7539914
[20] T. C. Woo and B. F. von Turkovich (1990)“Visibility map and its application to numerical control,"Annals of the CIRP, Vol 39, Issue.1, pp. 451-454.
[21]蔡宗樺,「嵌入式系統下三維繪圖之區塊式成像繪圖引擎」(2007),碩士論文,中山大學資訊工程系,高雄市。
[22]彭智勇,「融合SGM與Z-buffer的真正射影像遮擋檢測算法」(2017),桂林電子科技大學學報,第二期,第37卷,第134-139頁。
[23]劉原呈,「三軸CGT工具機之碰撞偵測」(2005),碩士論文,中正大學機械工程研究所,嘉義縣。
[24] S. Moodleah, E. J. Bohez and S. S. Makhanov (2016) “Five-axis machining of STL surfaces by adaptive curvilinear toolpaths,” International Journal of Production Research, Vol. 54, Issue.24, pp. 7296-7329.
[25] K. Xu, M. Luo, K. Tang (2016) “Machine based energy-saving tool path generation for five-axis end milling of freeform surfaces,” Journal of Cleaner Production, Vol.139, pp. 1207-1223.
[26] J. Xu, Y. Sun and L. Zhang (2015) “A mapping-based approach to eliminating self-intersection of offset paths on mesh surfaces for CNC machining,” Computer-Aided Design, Vol. 62, pp. 131-142.
[27]蔡其宏,「運動型安全帽模具3+2軸加工之製程規劃」(2017),碩士論文,臺灣科技大學機械工程系,台北市。
[28]林德聰、林清安,「運用支撐腳進行塑膠件快速打樣」(2009),中國機械工程學會第二十六屆全國學術研討會論文集,成功大學,台南市。
[29]黃文彥,「五軸零件加工之支撐腳設計」(2015),碩士論文,臺灣科技大學機械工程系,台北市。
[30]http://www.safeway-vise.com/cht/product.html#n-01
[31]http://www.zgfbdj.com/index.php?homepage=gongjuxitonggongsi&file=mall&itemid=595101
[32]http://www.cmtec.com.tw/admin/product_cn/images/file/2017-06-13/593fa7d97d771.pdf
[33]https://www.cmtec.com.tw/admin/product_en/images/file/2014-12-24/549a54f2e74aa.pdf
[34]https://www.quaser.com/tw/products.php?mode=proDetail&cid=1481260229&pid=1480471683&topcid=1481260229