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NTIS 바로가기Journal of advanced mechanical design, systems, and manufacturing, v.6 no.2, 2012년, pp.296 - 309
SEKINE, Tsutomu (Department of Mechanical Engineering, College of Science and Technology, Nihon University) , OBIKAWA, Toshiyuki (Institute of Industrial Science, the University of Tokyo) , HOSHINO, Michihiko (Department of Mechanical Engineering, College of Science and Technology, Nihon University)
This paper focuses on the mathematical modeling for 5-axis milling with a filleted end mill. Several coordinate systems are introduced to describe the relationship between a cutter orientation and a machined surface. Then, a cutting point on a cutting edge is geometrically formulated as an integrate...
Mukherjee, Indrajit, Ray, Pradip Kumar. A review of optimization techniques in metal cutting processes. Computers & industrial engineering, vol.50, no.1, 15-34.
(2) Urbanski, J.P., Koshy, P., Dewes, R.C., and Aspinwall, D.K., High speed machining of moulds and dies for net shape manufacture, Materials & Design , Vol. 21 (2000), pp. 395-402.
(3) Mustafa, K. and Eyup, B., Feedrate optimisation/scheduling on sculptured surface machining: a comprehensive review, applications and future directions, International Journal of Advanced Manufacturing Technology , Vol. 55 (2011), pp. 1037-1067.
10.1016/j.cad.2010.04.002 (4) Lasemi, A., Xue, D., and Gu, P., Recent development in CNC machining of freeform surfaces: A state-of-the-art review, Computer-Aided Design , Vol. 42 (2010), pp. 641-654.
Milfelner, M., Cus, F., Balic, J.. An overview of data acquisition system for cutting force measuring and optimization in milling. Journal of materials processing technology, vol.164, 1281-1288.
10.2493/jjspe.62.1019 (6) Zhao, XM., Tsutsumi M., Koreta N., Ge DF., and Chen L., Determination of Optimum Tilting Angle of Ball-End Mill in 5-Axis Control Machining : Determination Based on Finished Surface Roughness and Application of Neural Network, Journal of the Japan Society of Precision Engineering , Vol. 62, No .7 (1996), pp. 1019-1023. (in Japanese)
10.2493/jjspe.56.299 (7) Takatsuto, M., Furusawa, T., Takada, N, and Kishi, K., Ball End Mill Cutting in Gradient Optimizing Feed, Journal of the Japan Society of Precision Engineering , Vol. 56, No. 2 (1990), pp. 299-304. (in Japanese)
10.2493/jspe.70.65 (8) Yamada, M., Tanaka, F., Kondo, T., Kishinami, T., and Kohmura, A, Sculpture Surface Machining by Automatically Indexing Tilted Tool Axis on 5-axis Machine Tools (1st report) : Automatic Determination Method of Optimum Indexing Angle for High Efficiency Mold and Die Machining, Journal of the Japan Society for Precision Engineering , Vol. 70, No. 1 (2004), pp. 65-69. (in Japanese)
Benardos, P.G., Vosniakos, G.-C.. Predicting surface roughness in machining: a review. International journal of machine tools & manufacture, vol.43, no.8, 833-844.
Altan, T., Lilly, B., Yen, Y.C., Altan, T.. Manufacturing of Dies and Molds. CIRP annals ... manufacturing technology, vol.50, no.2, 404-422.
López de Lacalle, Luis N., Lamikiz, A., Sánchez, J.A., Arana, J.L.. Improving the surface finish in high speed milling of stamping dies. Journal of materials processing technology, vol.123, no.2, 292-302.
Toh, C.K.. Surface topography analysis in high speed finish milling inclined hardened steel. Precision engineering, vol.28, no.4, 386-398.
10.2493/jjspe.75.1238 (13) Hirogaki, T., Aoyama, E., Ogawa, K., Kawaguchi, T., Sueda, H., and Shuuchi, R., Investigation on Finished Surface Machined by Five-axis Machining Center : - Ball Nose End-milling under Constant Contact Angle and Optimum Machining Condition -, Journal of the Japan Society for Precision Engineering , Vol. 75, No. 10 (2009), pp. 1238-1244. (in Japanese)
10.2493/jjspe.59.1537 (14) Koreta, N., Egawa, T., Kuroda, M., Watanabe, K., and Ii, Y., Analysis of Surface Roughness Generation by Ball Endmill Machining, Journal of the Japan Society of Precision Engineering , Vol. 59, No. 9 (1993), pp.1537-1542. (in Japanese)
(15) Kim, B.H. and Chu, C.N., Texture prediction of milled surfaces using texture superposition method, Computer-Aided Design , Vol. 31 (1999), pp. 485-494.
KIKKAWA, Koichi, NAKAMURA, Keigo, MIZUGAKI, Yoshio. An Approach of Estimating Machining Error by Heuristic Geometrical Rule in 5-Axis Ball-Nosed End Milling. JSME international journal. Series C, Mechanical systems, machine elements and manufacturing, vol.47, no.1, 79-84.
(17) Zhang, WH., Tan, G., Wan, M., Gao, T., and Bassir, DH., A New Algorithm for the Numerical Simulation of Machined Surface Topography in Multiaxis Ball-End Milling, Transactions of the ASME , Journal of Manufacturing Science and Engineering ,Vol. 130 (2008), pp. 011003-1-011003-11.
(18) Gao, T., Zhang, WH., Qiu, KP., and Wan, M., Numerical Simulation of Machined Surface Topography and Roughness in Milling Process, Transactions of the ASME , Journal of Manufacturing Science and Engineering ,Vol. 128 (2006), pp. 96-103.
(19) Liu, X.B., Soshi, M., Sahasrabudhe, A., Yamazaki, K., and Mori, M., A Geometrical Simulation System of Ball End Finish Milling Process and Its Application for the Prediction of Surface Micro Features, Transactions of the ASME , Journal of Manufacturing Science and Engineering , Vol. 128 (2006), pp. 74-85.
(20) Obikawa, T. and Sekine, T., A Higher-Order Formula of Path Interval for Tool-Path Generation, International Journal of Automation Technology , Vol. 5, No. 5 (2011), pp. 663-668.
SEKINE, Tsutomu, OBIKAWA, Toshiyuki. Normal-Unit-Vector-Based Tool Path Generation Using a Modified Local Interpolation for Ball-End Milling. Journal of advanced mechanical design, systems, and manufacturing, vol.4, no.7, 1246-1260.
(22) Wu, C.T., Establishing a Correlative Model for Improving NC Machining Process, International Journal of Mechanics , Vol. 5 (2011), pp.100-111.
By Chen, Jenq-Shyong, Huang, Yung-Kuo, Chen, Mao-Son. Feedrate optimization and tool profile modification for the high-efficiency ball-end milling process. International journal of machine tools & manufacture, vol.45, no.9, 1070-1076.
(24) Boujelbene, M., Moisan, A., Bouzid, W., Torbaty, S., Variation cutting speed on the five-axis milling, Journal of Achievements in Materials and Manufacturing Engineering , Vol. 21 (2007), pp. 7-14.
Ko, T.J., Kim, H.S., Lee, S.S.. Selection of the Machining Inclination Angle in High-Speed Ball End Milling :. International journal of advanced manufacturing technology, vol.17, no.3, 163-170.
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