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Nguồn tham khảo
| Tài liệu tham khảo | Loại | Chi tiết |
|---|---|---|
| [1] Fu, M.W., Fuh, J.Y.H. and Nee, A.Y.C. (1999). Undercut feature recognition in an injection mould design system. Computer-Aided Design, 31(12): p. 777-790 | Khác | |
| [2] Fu, M.W., Fuh, J.Y.H. and Nee, A.Y.C. (1999). Generation of optimal parting direction based on undercut features in injection molded parts. IIE Transactions, 31(10): p. 947-955 | Khác | |
| [3] Ran, J.Q. and Fu, M.W. (2010). Design of internal pins in injection mold CAD via the automatic recognition of undercut features. Computer-Aided Design, 42(7): p. 582- 597 | Khác | |
| [4] Nee, A.Y.C., Fu, M.W., Fuh, J.Y.H., Lee, K.S. and Zhang, Y.F. (1997). Determination of Optimal Parting Directions in Plastic Injection Mold Design. CIRP Annals - Manufacturing Technology, 46(1): p. 429-432 | Khác | |
| [5] Ismail, N., Abu Bakar, N. and Juri, A.H. (2004). Recognition of cylindrical-based features using edge boundary technique for integrated manufacturing. Robotics and Computer-Integrated Manufacturing, 20(5): p. 417-422 | Khác | |
| [6] Chen, L.L., Chou, S.Y. and Woo, T.C. (1993). Parting directions for mould and die design. Computer-Aided Design, 25(12): p. 762-768 | Khác | |
| [7] Chen, L.L., Chou, S.Y. and Woo, T.C. (1995). Partial visibility for selecting a parting direction in mold and die design. Journal of Manufacturing Systems, 14(5): p. 319- 330 | Khác | |
| [8] Kumar, N., Ranjan, R. and Tiwari, M.K. (2007). Recognition of undercut features and parting surface of moulded parts using polyhedron face adjacency graph. The International Journal of Advanced Manufacturing Technology, 34(1): p. 47-55 | Khác | |
| [9] Fu, M.W. (2008). The application of surface demoldability and moldability to side- core design in die and mold CAD. Computer-Aided Design, 40(5): p. 567-575 | Khác | |
| [10] Zhang, Y.F., Lee, K.S., Wang, Y., Fuh, J.Y.H. and Nee, A.Y.C. Automatic Side Core Creation for Designing Slider/Lifter of Injection Moulds. 1997 | Khác | |
| [11] Zhang, Y.F., Liu, H.H. and Lee, K.S. (2002). Automated Generation of Lifters for Injection Moulds. The International Journal of Advanced Manufacturing Technology, 19(7): p. 537-543 | Khác | |
| [12] Jong, W.R., Ting, Y.H. and Li, T.C. (2013). Algorithm for automatic undercut recognition and lifter design. The International Journal of Advanced Manufacturing Technology, 69(5-8): p. 1649-1669 | Khác | |
| [13] Shin, K.H. and Lee, K. (1993). Design of side cores of injection moulds from automatic detection of interference faces. Journal of Design and Manufacturing(3): p.225-236 | Khác | |
| [14] Rosen, D.W. (1994). Towards automated construction of mould and die design. Proceedings ASME Computers in Engineering Conference, 1(317-326) | Khác | |
| [15] Hui, K.C. (1997). Geometric aspects of the mouldability of parts. Computer-Aided Design, 29(3): p. 197-208 | Khác | |
| [16] Banerjee, A.G. and Gupta, S.K. (2007). Geometrical algorithms for automated design of side actions in injection moulding of complex parts. Computer-Aided Design, 39(10): p. 882-897 | Khác | |
| [17] Huang, T.S. (2008). Algorithms For Recognizing Undercut Feature. Journal of Technology, 23(1): p. 61-68 | Khác | |
| [18] Wang, H.F., Zhou, X.H. and Qiu, Y. (2009). Feature-based multi-objective optimization algorithm for model partitioning. The International Journal of Advanced Manufacturing Technology, 43(7): p. 830-840 | Khác | |
| [19] Bassi, R., Reddy, N.V. and Bedi, S. (2010). Automatic recognition of intersecting features for side core design in two-piece permanent molds. The International Journal of Advanced Manufacturing Technology, 50(5-8): p. 421-439 | Khác | |
| [20] Ye, X.G., Fuh, J.Y.H. and Lee, K.S. (2001). A hybrid method for recognition of undercut features from moulded parts. Computer-Aided Design, 33(14): p. 1023- 1034 | Khác |
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