Journal of Engineering and Applied Sciences
Year:
2016
Volume:
11
Issue:
9
Page No.
2028 - 2035
References
Amran, M., S. Salmah, M. Sanusi, M. Yuhazri and N. Mohamad
et al., 2014. Surface roughness optimization in drilling process using Response Surface Method (RSM). J. Teknologi, 66: 29-35.
Brito, T.G., A.P. Paiva, J.R. Ferreira, J.H.F. Gomes and P.P. Balestrassi, 2014. A normal boundary intersection approach to multiresponse robust optimization of the surface roughness in end milling process with combined arrays. Precis. Eng., 38: 628-638.
Direct Link | Corral, I.B., J.V. Calvet and D.A. Fernandez, 2012. Surface topography in ball-end milling processes as a function of feed per tooth and radial depth of cut. Intl. J. Mach. Tools Manuf., 53: 151-159.
Direct Link | Jung, T.S., M.Y. Yang and K.J. Lee, 2005. A new approach to analysing machined surfaces by ball-end milling, part I. Intl. J. Adv. Manuf. Technol., 25: 833-840.
CrossRef | Direct Link | Jung, T.S., S.H. Nam, J.H. Park and M.Y. Yang, 2004. Analysis of machined surfaces by ball-end milling using the ridge method. J. Korean Soc. Precis. Eng., 21: 51-60.
Ozcelik, B. and M. Bayramoglu, 2006. The statistical modeling of surface roughness in high-speed flat end milling. Int. J. Machine Tools Manufacture, 46: 1395-1402.
CrossRef | Safari, H. and S. Izman, 2014. Influence of cutting conditions on surface and sub-surface quality of high speed dry end milling Ti-6Al-4V. J. Teknologi, 67: 131-135.
Schmitz, T.L., J. Couey, E. Marsh, N. Mauntler and D. Hughes, 2007. Runout effects in milling: Surface finish, surface location error and stability. Int. J. Mach. Tools Manuf., 47: 841-851.
CrossRef | Siebrecht, T., P. Kersting, D. Biermann, S. Odendahl and J. Bergmann, 2015. Modeling of surface location errors in a multi-scale milling simulation system using a tool model based on triangle meshes. Procedia CIRP., 37: 188-192.
CrossRef | Direct Link |