1.SANKYO株式會社,檢自https://www.sankyo-seisakusho.co.jp(Nov.11, 2019)
2.旭陽國際精機股份有限公司產品資訊,檢自http://www.gsaplus.com.tw(Nov.11, 2019)
3.Dhande, S. G., & Chakraborty, J., 1976a, “Curvature Analysis of Surface in Higher Pair Contact; Part 1: An Analytical Investigation,” ASME Transactions, Journal of Engineering for Industry, 98(2), 397-402. Doi:
4.Dhande, S. G., & Chakraborty, J., 1976b, “Curvature Analysis of Surface in Higher Pair Contact; Part 2: Application to Spatial Cam Mechanisms,” ASME Transactions, Journal of Engineering for Industry, 98(2), 403-409. Doi:
5.Litvin, F.L., 1969, “The synthesis of approximate meshing for spatial gears,” Journal of Mechanisms, 4(3), 187-191. Doi:
6.Litvin, F. L., & Gutman, Y., 1981, “Methods of Synthesis and Analysis for Hypoid Gear-Drives of Formate and Helixform—Part 1. Calculations For Machine Settings For Member Gear Manufacture of the Formate and Helixform Hypoid Gears,” Journal of mechanical design, 103(1), 83-88. Doi:
7.Chen, C.H.,& Chen,H.J., 1992, “Fundamentals of the Theory of Conjugate Surfaces,” Science Press, Beijing
8.Chen, C.H.,& Chen, H.J., 1992, “Flexible Mechanisms, Dynamics, and Analysis,” ASME Design Engineering Division, 47, 283-294
9.Tsay, D. -M., & Wei, H. -M., 1996, “A General Approach to the Determination of Planar and Spatial Cam Profiles,” Journal of mechanical design, 118(2), 259-265. Doi:
10.Tsay, D. -M., & Hwang, G. -S., 1994, “Application of the Theory of Envelope to the Determination of Camoid Profiles With Translating Followers,” Journal of mechanical design, 116(1), 320-325. Doi:
11.Hong, S. -Y., & Chen, H. -H., 1994, “Geometry design and machining of roller gear cams with cylindrical rollers,” Mechanism and Machine Theory, 29(6), 803-812. Doi:
12.Hong, S. -Y, & Wen, T. -C., 1999, “Curvature analysis of roller-follower cam mechanisms,” Mathematical and Computer Modelling, 29(1), 69-87. Doi:
13.Chen, C. K., & Yang, S. C., 2000, “Applying two-parameter envelope theory to determining spherical cam profile with cylinderical followers,” Canadian Society for Mechanical Engineering, 24(2), 415-432. Doi:
14.Chen, C. K., & Wu, D. -S., & Lai, H. -Y., 2002, “Mathematical modelling of elliptic helicoid screw transmission systems,” Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 216(2). Doi:
15.Wang, W. H., & Tsay, C. B., & Tseng, C. H., 1997, “Surface Contact Analysis for a Spatial Cam Mechanism,” Journal of mechanical design, 119(2), 169-177. Doi:
16.Shinji, K., & Fumihiko, K., & Toshio, S., 1980, “Generation of NC Commands for Sculptured Surface Machining from 3-Coordinate Measuring Data,” CIRP Annals, 29(1), 369-372. Doi:
17.Lu, J. -C., &Duffie, N., & Bollinger, J. G., 1982, “Two Dimensional Tracing and Measurement Using Touch Trigger Probes,” CIRP Annals, 31(1), 415-419. Doi:
18.Duffie, N., & Feng, S., & Kann, J., 1988, “CAD-Directed Inspection, Error Analysis and Manufacturing Process Compensation Using Tricubic Solid Databases,” CIRP Annals, 37(1), 149-152. Doi:
19.Theodore, H. H., & Hocken, R. J., 1984, “CAD-Directed Inspection,” CIRP Annals, 33(1), 357-361. Doi:
20.Aoyama, H., & Kawai, M., & Kishinami, T., & Taniguchi, N., 1989, “A New Method for Detecting the Contact Point between a Touch Probe and a Surface,” CIRP Annals, 38(1), 517-520. Doi:
21.Zhang, G., & Veale, R., & Charlton, T., & Borchardt, B., & Hocken, R., 1985, “Error Compensation of Coordinate Measuring Machines,” CIRP Annals, 34(1), 445-448. Doi:
22.Eversheim, W., & Auge, J., 1986, “Automatic Generation of Part Programs for CNC-Coordinate Measuring Machines Linked to CAD/CAM Systems” CIRP Annals, 35(1), 341-345. Doi:
23.Pahk H., & Kim J., & Lee K., 1996, “Integrated real time compensation system for errors introduced by measurement probe and machine geometry in commercial CMMs,” International Journal of Machine Tools and Manufacture, 36(9), 1045-1058. Doi:
24.Kunzmann, H., & Wäldele, F., 1988, “Performance of CMMs,” CIRP Annals, 37(2), 633-640. Doi:
25.Medland, A. J., & Mullineux, G., & Butler, C., & Jones, B. E., 1993, “The Integration of Coordinate Measuring Machines within a Design and Manufacturing Environment,” Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 207(2). Doi:
26.Gu, P., & Chan, K., 1996, “Generative inspection process and probe path planning for coordinate measuring machines,” Journal of Manufacturing Systems, 15(4), 240-255. Doi:
27.Daisuke T., & Kazuhide K., & Kimihisa M., & Noritaka K., 2019, “Measurement of form error of a probe tip ball for coordinate measuring machine (CMM) using a rotating reference sphere,” Precision Engineering, 61, 41-47. Doi:
28.王弘毅,2019,“齒輪強力刮齒法之刀具設計與切削分析”,虎尾科技大學機械與電腦輔助研究所,碩士論文。29.Stephane Baleon, (2019). Adamant-precision high precision components. Why is contact ratio important ?,Retrieved May 16,2020, from
https://adamant-precision.ch/blog/importance_of_contact_ratio(Mar. 8,2020)
30.矯明吉,2012,“三次元量測系統之實作與應用-以模具製造業為例”,逢甲大學資訊電機工程研究所,碩士論文。31.Renishaw網站。檢自https://www.renishaw.com.tw(Mar. 8,2020)
32.蔡忠佑,1996,“滾子凸輪之切銷與三次元量床量測”,國立成功大學機械工程研究所,碩士論文。33.蔡培毅,2000,“滾子輪式凸輪旋盤之設計”,國立中山大學機械工程研究所,碩士論文。34.陳菘景,2000,“三次元量床量測軟體發展”,國立中央大學機械工程研究所,碩士論文。
35.孔祥安,1999,固體接觸力學,中國鐵道出版社,頁75-82。
36.郭禮安,2008,“利用D-H標記修正法於非正交多軸工具機自動化泛用型後處理程式之發展”,國立成功大學機械工程研究所,碩士論文。