Details

Title

Evaluation of the Cutting Force Components and the Surface Roughness in the Milling Process of Micro- and Nanocrystalline Titanium

Journal title

Archives of Metallurgy and Materials

Yearbook

2016

Issue

No 3 September

Authors

Divisions of PAS

Nauki Techniczne

Publisher

Institute of Metallurgy and Materials Science of Polish Academy of Sciences ; Committee of Materials Engineering and Metallurgy of Polish Academy of Sciences

Date

2016

Identifier

DOI: 10.1515/amm-2016-0226 ; e-ISSN 2300-1909

Source

Archives of Metallurgy and Materials; 2016; No 3 September

References

Kutniy (2011), Obtaining of pure nanostructured titanium for medicine by severe deformation at cryogenic temperatures Und, Materialwissenschaft Werkstofftechnik, 42. ; Topolski (2012), Mechanical Properties of nanocrystalline titanium fabricated by hydrostatic extrusion of Metallurgy and, Archives Materials, 57. ; Nieslony (2013), FEM - based modelling of the influence of thermophysical properties of work and cutting tool materials on the process performance CIRP, Procedia, 12, 3. ; Krolczyk (2015), Investigation of selected surface integrity features of duplex stainless steel after turning, Metalurgija, 1. ; Wen (2000), Modeling of cutting forces in end milling operations of and, Tamkang Journal Science Engineering, 3. ; Ezugwu (1997), Titanium alloys and their machinability a review of Material Processing Technology, Journal, 68. ; Veiga (2013), Review on machinability of titanium alloys : the process perspective on Materials, Reviews Advanced Science, 34. ; Jaffery (2009), Assessment of the machinability of Ti - alloy using the wear map approach The International of Manufacturing, and Journal Advanced Technology, 6, 40. ; Ezugwu (2003), An overview of the machinability of aeroengine alloys of Materials Processing, Journal Technology, 134. ; Ding (2011), Dislocation density - based grain refinement modeling of orthogonal cutting of commercially pure titanium of Manufacturing Science and Engineering Conference, Proc Int MSEC, 50220. ; Aziziet (2012), Surface roughness and cutting forces modeling for optimization of machining condition in finish hard turning of AISI steel of Mechanical and Technology, Journal Science, 26. ; Oczos (2008), Ksztaltowanie ubytkowe tytanu i jego stopów w przemysle lotniczym i technice medycznej, Mechanik, 8, 639. ; Ulutan (2011), Machining induced surface integrity in titanium and nickel alloys of Machine Tools and Manufacture, review International Journal, 51. ; Narutaki (1983), Study on Machining of Titanium Alloys - Manufacturing, CIRP Annals Technology, 32. ; Topolski (2013), Progress in hydrostatic extrusion of titanium of Material, Journal Science, 48. ; Krolczyk (2015), Determination of tool life and research wear during duplex stainless steel turning of Civil and Mechanical Engineering, Archives, 15. ; Zareena (2012), Tool wear mechanisms and tool life enhancement in ultra - precision machining of titanium of Materials Processing, Journal Technology, 212. ; Lapovok (2012), Machining of coarse grained and ultra fine grained titanium of Materials, Journal Science, 47.
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