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顏木田 教授

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姓名職稱:

顏木田 教授

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電子郵件:

mtyan@ncut.edu.tw

研究室:

7175

電話:

04-23924505 ext 7175

傳真:

04-23935714

實驗室:

研究領域:

精密機械系統、非傳統加工技術、機電整合與控制

教學課程:

精密加工、非傳統加工、數控技術與應用、數控加工與量測、精密機械設計、機電整合、精密機械控制、數位控制

研究計畫:

多工型臥式高精密微小4 軸多工型臥式高精密微小4 軸CNC 加工機之研發及其應用-總計畫:多工型臥式高精密微小4 軸CNC 加工機之研發及其應用(1/3)(2/3)(3/3)

國家科學委員會

200408 ~ 200707

主持人

 

線性馬達驅動之線切割放電加工機研究(1/2)(2/2)

國科會

2004年08月 ~ 2006年07

計畫主持人

 

多工型臥式高精密微小4 軸 CNC 加工機之研發及其應用-子計畫三:介觀工具機控制系統研發(1/3)(2/3)(3/3)

國科會

2004年08月 ~ 2007年07

計畫主持人

 

微線切割放電加工監視與控制系統研發(1/2)(2/2)

國科會

2007年08月 ~ 2009年07

計畫主持人

 

六軸微線切割放電加工機關鍵技術研發(I)

國科會

2009年08月 ~ 2010年07

計畫主持人

 

六軸微線切割放電加工機關鍵技術研發(1/2)(2/2)

國科會

2010年08月 ~ 2012年07

計畫主持人

 

使用油加工液多晶鑽石微線切割放電加工放電電源研發與實驗研究

國科會

2012年08月 ~ 2013年07

計畫主持人

 

線切割放電加工智慧型控制系統研發

國科會

2013年08月 ~ 2015年07

計畫主持人

 

應用微線切割放電加工製作多晶鑽石輪刀

國科會

2013年08月 ~ 2014年07

計畫主持人

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學歷:

國立台灣大學機械工程博士

經歷:

國立台北科技大學機械系兼任教授(2014年9月 ~ 2015年1月)
台灣電加工學會第一屆與第二屆常務理事(2014年01月 ~ 2017年12月)
華梵大學機電工程學系助理教授、副教授、教授(1999年10月 ~ 2016年7月)
國立臺北科技大學自動化科技研究所兼任副教授(2009年8月 ~ 2010年1月)
華梵大學實習工廠廠長(2000年8月 ~ 2001年7月)
華梵大學推廣教育中心教學組長(1999年11月 ~ 2000年7月)
工研院機械所資訊控制組數值控制部研究員(1995年10月 ~ 1999年10月)

榮譽:

1. 華梵大學103至104學年度學術研究傑出教師
2. 華梵大學101至102學年度學術研究傑出教師(傑出一類)
3. 華梵大學100學年度學術研究傑出教師(傑出一類)
4. 第六屆亞洲精密工程與奈米技術國際研討會(ASPEN 2015)最佳論文獎
5. 第二十二屆全國自動化科技研討會 (Automation 2014)工具機與刀具設計類最佳論文獎
6. 2011年健陞公司研究成果貢獻獎
7. 教育部 99年度精密機械與光機電專題競賽,榮獲學術盃精密機械領域銀牌獎
8. 2009年國際自動控制研討會(CACS 2009)最佳論文獎第一名

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學術期刊:

[1] S. J. Hung and M. T. Yan, “The Adaptive Control for Retrofit Traditional Milling Machine”, IEEE Transaction on Industry Applications, Vol.32, No.4 July/August, 1996, pp. 802-809. (SCI)

[2] S. J. Hung and M. T. Yan, “Theoretical and Experimental Study of PI Control, Adaptive Control and Variable Structure Control for Converted Traditional Milling Machines”, International Journal of Machine Tools and Manufacture, Vol. 33, No. 5, 1993, pp. 695-712. (SCI)

[3] M. T. Yan and Y. S. Liao, “Adaptive Control of WEDM Process Using the Fuzzy Control Strategy”, Journal of Manufacturing System, Vol. 17, No 4, 1998, pp.263-274. (SCI)

[4] M. T. Yan and Y. S. Liao, “Monitoring and Self-Learning Fuzzy Control for Wire Rupture Prevention in WEDM”, International Journal of Machine Tools and Manufacture, Vol. 36, Issue 3, 1996, pp.339-353. (SCI)

[5] Y. S. Liao, Y. Y. Chu and M. T. Yan, “Study of Wire Breaking Process and Monitoring of WEDM”, International Journal of Machine Tools and Manufacture, Vol. 37, Issue 4, 1997, pp.555-567. (SCI)

[6] M. T. Yan and Y. S. Liao, “A Self-Learning Fuzzy Controller for Wire Rupture Prevention in WEDM”, The International Journal of Advanced Manufacturing Technology, Vol. 11, 1995, pp. 267-275. (SCI)

[7] M. T. Yan, H. P. Li and J. F. Liang, “The Application of Fuzzy Control Strategy in Servo Feed Control of WEDM”, The International Journal of Advanced Manufacturing Technology, Vol. 15, 1999, pp. 780-784. (SCI)

[8] M. T. Yan, Y. S. Liao and C.C. Chang, “On-line Estimation of Workpiece Height by Using Neural Networks and Hierarchical Adaptive Control of WEDM”, The International Journal of Advanced Manufacturing Technology, Vol. 19, 2001, pp.884-891. (SCI)

[9] Y. S. Liao, M. T. Yan, and C.C. Chang, “A Neural-Network Approach for the On-Line Estimation Workpiece Height in WEDM”, Journal of Materials Processing Technology, Vol. 121 No. 2-3, 2002, pp. 252-258. (SCI)

[10]  M.T. Yan and T. J. Chuang, “A Study of Path Compensation Strategy for the Rough Corner Cutting of Wire-EDM”, Bulletin of the College of Engineering, N.T.U., No. 87, February 2003, pp. 109-117.

[11]  M. T. Yan and T. J. Chuang, “Improvement of the Wire-EDM Corner Cutting Precision by a Combined Path Compensation and Parameters Control Method”, Journal of the Chinese Society of Mechanical Engineers, Vol. 23 No. 4, August 2002, pp. 355-366. (SCI)

[12]  Mu-Tian Yan and P. H. Huang, “Accuracy Improvement of Wire-EDM by Real-Time Wire Tension Control”, International Journal of Machine Tools and Manufacture, Vol. 44, Issues 7-8, 2004, pp. 807-814. (SCI)

[13]  Mu-Tian Yan, C. W. Huang, C. C. Fang and C. X. Chang, “Development of a Prototype Micro Wire-EDM Machine”, Journal of Materials Processing Technology, Vol. 149, No. 1-3, 2004, pp. 99-105. (SCI)

[14]  Mu-Tian Yan, “Modeling and Adaptive Control of The Wire Transport System in a Wire-EDM Machine”, Proceedings of the Institution of Mechanical Engineers PART I – Journal of Systems and Control Engineering, Vol. 218, No. 8, 2004, pp. 637-643. (SCI)

[15]  M. T. Yan and M. H. Lee and Ping-Lang Yen, “Theory and Application of a Combined Self-Tuning Adaptive Control and Cross-Coupling Control in a Retrofit Milling Machine”, Mechatronics, Vol. 15, No. 2, 2005, pp. 193-211. (SCI)

[16]  Mu-Tian Yan, Chen-Wei Huang and Chuan-Jie Wang, “Development of an Open Architecture CNC system for a Wire-EDM Machine”, Materials Science Forum, Vols. 505-507, January 2006, pp. 481-486. (EI).

[17] P. L. Yen, T. S. Lu and M. T. Yan, “Development of an Ultra-Precision Positioning Stage Using an Opto-Mechatronics Component from CD-ROM Drive”, Journal of the Chinese Society of Mechanical Engineers, Vol. 27, No. 1, 2006, pp. 47-52. (SCI)

[18]  Mu-Tian Yan and Hsing-Tsung Chien, “Monitoring and Control of the Micro Wire-EDM Process”, International Journal of Machine Tools and Manufacture, Vol. 47, Issue 1, 2007, pp. 148-157. (SCI)

[19] Mu-Tian Yan, Yil Chen and Ping-Lang Yen, “Tracking Control of a Piezoceramic Actuator System Using a Combined Self-tuning Regulator and Phase-lead Compensator”, Proceedings of the Institution of Mechanical Engineers PART I – Journal of Systems and Control Engineering, Vol. 222, No. 1, 2007, pp.1-13. (SCI)

[20] Mu-Tian Yan and Yi-Peng Lai, “Surface Quality Improvement of Wire-EDM Using a Fine Finish Power Supply”, International Journal of Machine Tools and Manufacture, Vol. 47, Issue 11, 2007, pp. 1686-1694. (SCI)

[21] Albert W.-J. Hsue, M. T. Yan and S. S. Ke, “Comparison on Linear Synchronous Motors and Conventional Rotary Motors Driven Wire-EDM Processes”, Journal of Materials Processing Technology, Vol. 192-193, 2007, pp 478-485. (SCI)

[22]  Mu-Tian Yan, Kuo-Yi Huang, Yau-Jung Shiu and Yil Chen, “Disturbance Observer and Adaptive Controller Design for a Linear-Motor-Driven Table System”, The International Journal of Advanced Manufacturing Technology, Vol. 35, No. 3-4, 2007, pp. 408-415. (SCI)

[23] Mu-Tian Yan and Yau-Jung Shiu, “Theory and Application of a Combined Feedback-feedforward Control and Disturbance Observer in Linear Motor Drive Wire-EDM Machines”, International Journal of Machine Tools and Manufacture, Vol. 48, Issues 3-4, 2008, pp. 388-401. (SCI)

[24]  Mu-Tian Yan and Chi-Cheng Fang, “Application of Genetic Algorithm Based Fuzzy Logic Control in Wire Transport System of Wire-EDM Machine”, Journal of Materials Processing Technology, Vol. 125, Issues 1-3 2008, pp. 128-137. (SCI)

[25]  Mu-Tian Yan and Ming-Hsiang Chuang, “A Study on Micro Wire-EDM Using EDM Oil as Dielectric”, Journal of Advanced Engineering, Vol. 3, No. 4, 2008, pp. 285-289.

[26]  Mu-Tian Yan and Tun-Hua Cheng, “High Accuracy Motion Control of Linear Motor Drive Wire-EDM Machines”, The International Journal of Advanced Manufacturing Technology, Vol. 40, No. 9-10, 2009, pp. 918-928. (SCI)

[27]  Mu-Tian Yan and Tsung-Liang Chiang, “Design and Experimental Study of a Power Supply for Micro Wire-EDM”, The International Journal of Advanced Manufacturing Technology, Vol. 40, No. 11-12, 2009, pp. 1111-1117. (SCI)

[28]  Mu-Tian Yan, Kuo-Yi Huang and Chin-Yen Lo, “A Study on Electrode Wear Sensing and Compensation in Micro-EDM Using Machine Vision System”, The International Journal of Advanced Manufacturing Technology, Vol. 42, No. 11-12,2009, pp. 1065-1073 (SCI)

[29] Mu-Tian Yan, and Yi-Ting Liu, “Design, Analysis and Experimental Study of a High-frequency Power Supply for Finish Cut of Wire-EDM”, International Journal of Machine Tools and Manufacture, Vol. 49, Issues 10, 2009, pp. 793-796 (SCI).

[30] Mu-Tian Yan, “An Adaptive Control System with Self-organizing Fuzzy Sliding Mode Control Strategy for Micro Wire-EDM Machine”, The International Journal of Advanced Manufacturing Technology, Vol. 50, No. 1-4,2010, pp. 315-328 (SCI)

[31]  Mu-Tian Yan, and Shr-Shiang Lin, “Process Planning and Electrode Wear Compensation for 3D Micro EDM”, The International Journal of Advanced Manufacturing Technology, Vol. 53, No. 1-4, 2011, pp. 209-219. (SCI)

[32]  Pi-Wen Wang, Chun-Hsien Yang and Mu-Tian Yan, “High Stable Mechanism Design for Micro-Wire Transport System in WEDM”, Advanced Materials Research, Vol. 189-193, 2011, pp. 1366-1369. (EI)

[33]  Mu-Tian Yan, Yil Chen, Ping-Lang Yen, “ Image Quality Improvement in Atomic Force Microscopy Using a Novel Control Strategy”, Advanced Science Letters, Vol. 4, No. 4-5, 2011, pp.1529-1535. (SCI)

[34]  Ping-Lang Yen, Mu-Tian Yan, Yil Chen, “Hysteresis Compensation and Adaptive Controller Design for a Piezoceramic Actuator System in Atomic Force Microscopy”, Asian Journal of Control, Vol. 14, No. 4, 2012, pp. 1012-1027 (SCI)

[35] Mu-Tian Yan, Yi-Ting Liu and Guan-Ren Fang, “A Study on Pulse Generator for Micro WEDM of Polycrystalline Diamond “, Key Engineering Materials, Vol. 516, 2012, pp. 498-503 (EI).

[36] Mu-Tian Yan, Guan-Ren Fang and Yi-Ting Liu, “An Experimental Study on Micro Wire-EDM of Polycrystalline Diamond Using a Novel Pulse Generator, The International Journal of Advanced Manufacturing Technology, Vol. 66, No. 9-12, 2013, pp. 1633-1640. (SCI)

[37] Albert Wen-Jeng Hsue, Chih-Hong Chung, Mu-Tian Yan, “Effective Pulses Discriminator and Control Strategy for High Speed Direct-Drive Electrical Discharge Machining”, Journal of the Chinese Society of Mechanical Engineers, Vol. 34, No. 2, 2013, pp. 167-176 (SCI)

[38]  Mu-Tian Yan, Guan-Ren Fang, Yi-Ting Liu, Jia-Ran Li, “Fabrication of Polycrystalline Diamond Wheels by Micro Wire-EDM Using a Novel Pulse Generator”, Procedia CIRP Annals Manufacturing Technology, Vol. 6, 2013, pp. 204-209 (EI)

[39] Mu-Tian Yan and Pai-Hung Hsieh, “Monitoring and Adaptive Process Control of Wire Electrical Discharge Turning”, International Journal of Automation Technology, Vol. 8, No. 3, 2014, pp. 468-477 (EI)

[40]  Mu-Tian Yan and Pai-Hung Hsieh, “An On-line Monitoring System for Wire Electrical Discharge Turning Process”, Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, Vol. 229, No. 11, 2015, pp. 1945-1954 (SCI)

[41] Mu-Tian Yan, Pi-Wen Wang and Jian-Cheng Lai, “Improvement of Part Straightness Accuracy in Rough Cutting of Wire-EDM Through a Mechatronic System Design”, The International Journal of Advanced Manufacturing Technology, The International Journal of Advanced Manufacturing Technology, Vol. 84, No. 9-12, 2016, pp. 2623-2635 (SCI)

[42] Mu-Tian Yan, Tsung-Chien Lin, “Development of a Pulse Generator for Rough Cutting of Oil-based Micro Wire-EDM, Procedia CIRP ,42, 2016, pp. 709-714 (EI)

研討會:

[1] Mu-Tian Yan, and Shr-Shiang Lin, “Process Planning and Electrode Wear Compensation for 3D Micro EDM”, Proceedings of the 16th International Symposium on Electromachining (ISEM XVI), Shanghai, China, April 19-23, 2010.

[2]    顏木田、 王崇銘、 王丕文,2010, 微線切割放電加工機繞線系統之智慧型控制器設計,中國機械工程學會第二十七屆全國學術研討會,國立台北科技大學,台北市,民國九十九年十二月十日

[3]    顏木田、方冠仁、 劉奕廷,微線切割放電加工機交流電源研發,中國機械工程學會第二十七屆全國學術研討會,國立台北科技大學,台北市,民國九十九年十二月十日

[4]    顏木田、許仙薇、梁舒評,中國機械工程學會第二十八屆全國學術研討會,國立中興大學,台中市,民國一百年十二月十日

[5] Mu-Tian Yan, Yi-Ting Liu and Guan-Ren Fang, “A Study on Pulse Generator for Micro WEDM of Polycrystalline Diamond”, 4th International Conference of Asian Society for Precision Engineering and Nanotechnology, Hong Kong, November 16-18, 2011.

[6] Albert W.-J. Hsue, Mu-Tian Yan and C.-H. Chung, “High Efficient Electrical Discharge Machining Processes Based upon Linear Motors and Pulses Discriminator Feedback”, IEEE/ASME International Conference on Advanced Intelligent Mechatronics (AIM 2012), Kaohsiung, Taiwan, July 11-14, 2012.

[7] Mu-Tian Yan, Guan-Ren Fang, Yi-Ting Liu, “Development of a Specific Pulse Generator for Micro Wire-EDM of Polycrystalline Diamond”, The 20'th Conference on Automation Technology, Tao-Yuan, Taiwan, November 2-3, 2012.

[8] Albert W.-J. Hsue, Mu-Tian Yan, and C.-H. Chung, “High Efficient Electrical Discharge Machining Processes Based upon Linear Motors and Pulses Discriminator Feedback”, 2012 IEEE/ASME International Conference on Advanced Intelligent Mechatronics (AIM 2012), Kaohsiung, Taiwan, July 7-14, 2012.

[9] 顏木田、林宗謙、蘇祐樑, 使用油加工液多晶鑽石微線切割放電加工之研究,2013 全國精密機械製造研討會,台北市, 國立台北科技大學, 民國一百零二年十一月二十二日

[10] Mu-Tian Yan, Yu-Liang Su and Yi-Ting Liu ,2014, “Finish-Cutting of Polycrystalline Diamond by Micro Wire-EDM Using a Novel Pulse Control Method”, 15th International Conference on Precision Engineering, Kanazawa, Japan, July 23-25, 2014.

[11] Mu-Tian Yan, Pi-Wen Wang and Jian-Cheng Lai, “A Novel Wire Transport System Design for the Improvement of Part Straightness Accuracy in Rough Cutting of Wire-EDM” , 6th International Conference of Asian Society for Precision Engineering and Nanotechnology (ASPEN 2015), Harbin, P. R. China, August 15-20, 2015.

專利:

[1] 線切割機線撓曲量測方法,中華民國發明專利,專利號碼 111493,美國專利,專利號碼US 6184485B1,2001年。

[2] 放電加工機的放電電源控制電路,中華民國發明專利,證書號碼 I281880,2007年。

[3] 線切割放電加工監視與控制,中華民國發明專利,證書號碼 I298028,2008年。

[4] 線切割放電加工精修電源控制電路,中華民國發明專利,證書號碼 I325680,2010年。

[5] 放電加工之電源控制裝置,中華民國發明專利,證書號碼 I357840,2012年。

[6]    線切割加工機之繞線系統及其供線方法,中華人民共和國發明專利,授權公告號,CN 102233463 B,2013年。

[7]    線切割機繞線系統之減振機構,中華民國發明專利,證書號碼 I383870,2013年。

 

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