模糊控制應用於線切割放電加工厚度變化工件之研究

Yi-Chi Lin; 林奕圻

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/35326

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	廖運炫
dc.contributor.author	Yi-Chi Lin	en
dc.contributor.author	林奕圻	zh_TW
dc.date.accessioned	2021-06-13T06:48:14Z	-
dc.date.available	2005-08-01
dc.date.copyright	2005-08-01
dc.date.issued	2005
dc.date.submitted	2005-07-29
dc.identifier.citation	1. Obara, H., “Wire-cut Electrical Discharge Machine, ” U.S. Patent No.4,510,367, 1985. 2. Shoda, K., Kaneko, Y., Nishimura, H., Kunieda, M. and Fan, M.X.,“Adaptive Control of WEDM with On-line Detection of Spark Locations,” Proceedings of the International Symposium for Electro-Machining (ISEM-10), 1992, pp. 410-416. 3. Kunieda, M., Takeshita, S. and Okumiya, K., “Study on WireElectrode Temperature in WEDM,” Proceedings of the International Symposium for Electro-Machining (ISEM-12), 1998, pp. 119-128. 4. Rajurkar, K. P., Wang, W. M. and McGeough, J. A., “WEDM Identification and Adaptive Control for Variable-height Components, ” Annals of the CIRP, Vol. 43, No. 1, 1994, pp. 199-202. 5. Rajurkar, K. P., Wang, W. M. and Zhao, W. S., “WEDM Adaptive Control with a Multiple Input Model for Identification of Work-piece Height, ” Annals of the CIRP, Vol. 46, No. 1, 1997, pp. 147-150. 6. Yan, M. T., Liao, Y. S., “Monitoring and Self-learning Fuzzy Control for Wire Rupture Prevention in Wire Eectrical Discharge Machining, ’’ International Journal of Machine Tools and Manufacture, Vol.36, No.3, 1996, pp. 339-353. 7. Liao, Y. S., Woo, J. C., “Design of A Fuzzy Controller for the Adaptive Control of WEDM Process, ’’ International Journal of Machine Tools and Manufacture, Vol.40, No.15, 2000, pp. 2293-2307. 71 8. Lee, W. M., Liao, Y. S., “ Self-tuning Fuzzy Control with A Grey Prediction for Wire Rupture Prevention in WEDM, ’’ International Journal of Advanced Manufacturing Technology, Vol.22, No.7-8, 2003, pp. 481-490. 9. Liao, Y. S., Yan, M. T., Chang, C. C., “A Neural Network Approach for the On-line Estimation of Workpiece Height in WEDM, ’’ Journal of Materials Processing Technology, Vol.121, No.2-3, 2002, pp. 252-258. 10. 余永平, 線切割放電加工材料之能量性質及其應用, 博士論文, 國立台灣大學機械工程研究所, 2001. 11. Kunieda, M. and Kojima, H., “On-line Detection of EDM Spark Locations by Multiple Connection of Branched Electric Wires,” Annals of the CIRP, VOL. 39, No. 1, 1990, pp. 171-174. 12. 洪銘聰, 線切割式放電加工(WEDM)放電點位置分佈之研究, 碩士論文, 國立台灣大學機械工程研究所, 2001. 13. 許俸昌, 以放電點位置偵測系統為基礎之線上厚度估測與控制, 碩士論文, 國立台灣大學機械工程研究所, 2003. 14. 李其政, 類神經網路應用於線切割放電加工厚度變化工件之研究, 碩士論文, 國立台灣大學機械工程研究所, 2004. 15. 陳益原, 搖動電極放電加工參數最佳化之研究, 碩士論文, 國立台灣大學機械工程研究所, 1994. 16. 顏木田, 線切割式放電加工之適應控制, 博士論文, 國立台灣大學機械工程研究所, 1995. 17. 陳煥卿, 模糊控制應用於冷卻系統節能之研究與設計, 大葉大學電機工程研究所, 1994. 18. 王文俊, 認識FUZZY, 全華科技圖書股份有限公司, 1997. 72 19. 林建德, 蔣旭堂, 楊英魁, 孫宗瀛, 鄭魁香, 模糊控制理論與技術, 全華科技圖書股份有限公司, 2003. 20. 王進德, 蕭大全, 類神經網路與模糊控制理論入門, 全華科技圖書股份有限公司, 2002. 21. 許義雄, 放電加工技術探討, 機械技術, 1990 年8 月, pp. 16-29.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/35326	-
dc.description.abstract	本文目的在於改善線切割放電加工機在切割工件厚度變化處之不穩定現象。文中先以實驗求得不同厚度與伺服電壓下之進給速率，設此進給速率為理想進給速率。再設計一模糊控制器，以間隙電壓、間隙電壓變化量與目前進給速率和理想進給速率之差距為控制器之輸入變數制定模糊控制法則，對厚度變化之瞬間制定控制策略，在加工時由控制器推論出適合之進給速率。由實驗結果顯示，本文所設計之控制系統，可在經過工件段差時，推論出最適當的進給速率，大幅度穩定加工狀態與提升暫態性能。且進給速率在控制下皆未產生超越量(overshoot)或震盪，避免了因進給速率過度加速所造成之危機。加工過程中，進給速率在穩態時最大變動量約0.05mm/min。	zh_TW
dc.description.abstract	The purpose of this study is to overcome the instability occurring in the Wire-EDM process when the cutting wire is encountering the abrupt change of the height of the workpieces. An algorithm which is able to estimate the optimal feed rate automatically during the Wire-EDM process is proposed. A fuzzy controller with multiple control rules for different changing conditions of the height of the workpieces is designed. The most appropriate feed rate is calculated by the fuzzy controller according to the present gap voltage and the estimated workpiece height. Experiments have shown that sat factory performance is obtained with the assistance of the fuzzy controller. The Wire-EDM process becomes stably without overshoot and oscillation even when the height of the workpiece changes abruptly. The transient performance is also enhanced, and the maximum variation of feed rate in the steady state during the Wire-EDM process is 0.05mm/min.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T06:48:14Z (GMT). No. of bitstreams: 1 ntu-94-R92522823-1.pdf: 813716 bytes, checksum: 0ff2fd58f6fb09f01726ddb0e263ee5c (MD5) Previous issue date: 2005	en
dc.description.tableofcontents	致謝...............................................................一摘要...............................................................二英文摘要...........................................................三目錄...............................................................四圖目錄.............................................................六表目錄.............................................................九符號說明...........................................................十第一章緒論........................................................ 1 1-1 引言........................................................1 1-2 文獻回顧....................................................2 1-3 研究目的與方法..............................................6 1-4 本文結構....................................................8 第二章放電加工原理介紹............................................ 9 2-1 放電加工原理................................................9 2-2 放電基本轉換過程及火花結構.................................12 2-3 放電電源及波形.............................................14 2-4 線切割放電加工之特性.......................................18 第三章模糊理論之介紹............................................. 21 3-1 模糊理論概述...............................................21 3-2 集合理論...................................................23 3-3 模糊控制器.................................................25 3-3.1 歸屬函數.............................................26 3-3.2 模糊分割.............................................27 3-3.3 模糊控制規則.........................................29 3-3.4 模糊推論.............................................29 3-3.5 解模糊化.............................................30 3-4 模糊控制之特點.............................................31 五第四章實驗設備與實驗規劃......................................... 32 4-1 實驗設備與材料.............................................32 4-2 伺服進給系統原理...........................................36 第五章模糊控制器之研究........................................... 38 5-1 不同厚度與相異間隙電壓下所對應之加工進給速率...............38 5-2 本實驗之控制系統之設計.....................................40 5-2.1 輸入及輸出變數.......................................40 5-2.2 控制器之架構.........................................41 5-2.3 模糊化介面...........................................43 5-2.4 進給速率之控制策略...................................45 5-2.5 解模糊化介面.........................................51 5-3 控制程式之流程圖...........................................51 5-4 控制方法之分析與比較.......................................53 5-4.1 切割薄至厚的工件.....................................54 5-4.2 切割厚至薄的工件.....................................60 5-5 控制結果討論...............................................67 第六章結論與建議................................................. 69 參考文獻...........................................................70
dc.language.iso	zh-TW
dc.subject	間隙電壓	zh_TW
dc.subject	線切割放電加工	zh_TW
dc.subject	模糊控制	zh_TW
dc.subject	Fuzzy	en
dc.subject	Gap voltage	en
dc.subject	Wire-EDM machines	en
dc.title	模糊控制應用於線切割放電加工厚度變化工件之研究	zh_TW
dc.title	A Study on Fuzzy WEDM Process with Workpieces of Variant Height	en
dc.type	Thesis
dc.date.schoolyear	93-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	顏木田,許文政
dc.subject.keyword	線切割放電加工,模糊控制,間隙電壓,	zh_TW
dc.subject.keyword	Wire-EDM machines,Fuzzy,Gap voltage,	en
dc.relation.page	72
dc.rights.note	有償授權
dc.date.accepted	2005-07-29
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	機械工程學研究所	zh_TW
顯示於系所單位：	機械工程學系

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