Recent Developments in Abrasive Hybrid Manufacturing Processes

Journal title

Management and Production Engineering Review




No 2



Wydział IV Nauk Technicznych

Divisions of PAS

Wydział IV Nauk Technicznych


Production Engineering Committee of the Polish Academy of Sciences, Polish Association for Production Management




DOI: 10.1515/mper-2017-0020


Management and Production Engineering Review; 2017; No 2


Shaikh (2014), Modelling of material removal rate and surface roughness in finishing of bevel gears by electrochemical honing process, Journal of Materials Processing Technology, 214. ; Yildiz (2008), A review of cryogenic cooling in machining processes, International Journal of Machine Tools & Manufacture, 48, 947. ; Hascalik (2007), A comparative study of surface integrity of Ti - Alloy machined by EDM and AECG, Journal of Materials Processing Technology, 6, 190. ; Wong (1998), Near - mirror phenomenon in EDM using powder - mixed dielectric, Journal of Materials Processing Technology, 79, 30. ; Zhao (2008), Research on micro - mechanism of nanocomposite ceramic in two - dimensional ultrasound grinding, Key Engineering Materials, 304. ; Prihandana (2009), et Effect of micro - powder suspension and ultrasonic vibration of dielectric fluid in micro - EDM process Taguchi approach, International Journal of Machine Tools & Manufacture, 49, 1035. ; Manimaran (2013), Effect OF cryogenic cooling and sol - gel alumina Wheel on grinding performance of AISI stainless steel, Archives of Civil and Mechanical Engineering, 13, 304. ; Ichida (2005), Material removal mechanism in non contact ultrasonic abrasive machining, Wear, 258. ; Liang (2013), Experimental study on brittle - ductile transition in elliptical ultrasonic assisted grinding of monocrystalline sapphire using single abrasive grain, Journal of Materials Processing Technology, 71, 41. ; Liang (2010), A New Two - Dimensional Ultrasonic Assisted Grinding Method and Its Fundamental Performance in Monocrystal Silicon Machining, International Journal of Machine Tools & Manufacture, 50, 728. ; Ruszaj (1998), The Investigations Aiming to Increase the Flexibility of Electrochemical Grinding of Electrical Machining, International Journal, 3, 25. ; Kozak (2001), Selected problems of abrasive hybrid machining, Journal of Materials Processing Technology, 109. ; Curtis (2009), Electrochemical superabrasive machining of a nickel based aero engine alloy using mounted grinding points, CIRP Annals Manufacturing Technology, 58, 173. ; Satyarthi (2013), Modelling of material removal rate in electric discharge grinding process, International Journal of Machine Tools & Manufacture, 74, 65. ; Manimaran (2014), Influence of cryogenic cooling l on surface grinding of stainless steel, Cryogenics, 316. ; Skoczypiec (2014), A sequential electrochemical electrodischarge process for microparts manufacturing, Precision Engineering, 38, 680. ; Lauwers (2011), Surface Integrity in Hybrid Machining Processes, Procedia Engineering, 19, 241. ; Menesis (2008), Assessment of abrasion assisted material removal in wire EDM, CIRP Annals Manufacturing Technology, 57, 195. ; Lauwers (2014), Hybrid processes in Manufacturing, CIRP Annals Manufacturing Technology, 63, 561. ; Gao (2009), Research on the surface characteristics in ultrasonic grinding nano - zirconia ceramics, Journal of Materials Processing Technology, 209. ; Koshy (1997), Grinding of cemented carbide with electrical spark assistance, Journal of Materials Processing Technology, 72, 61. ; Ghahramani (2012), Ultrasonic - Assisted Grinding of Ti Alloy, Procedia CIRP, 6, 1. ; Bhaduri (2012), A study on ultrasonic assisted creep feed grinding of Nickel based superalloys, Procedia CIRP, 1. ; Shrivastava (2013), Experimental modeling and optimization of electric discharge diamond face grinding of metal matrix composite, International Journal of Advanced Manufacturing Technology, 69. ; Mohsen (2012), Ultrasonic - Assisted Grinding of Ti Alloy, Procedia CIRP, 6, 1. ; Ruszaj (2000), Investigations aiming at working out the CAD / CAM system for electrochemical grinding with spherical abrasive tool of Electrical Machining, International Journal, 5, 35. ; Klocke (2015), Abrasive machining of advanced aerospace alloys and composites, CIRP Annals Manufacturing Technology, 64, 581. ; Chen (2009), Surface modification of Al - Zn - Mg alloy using combined EDM with ultrasonic machining and addition of TiC particles into dielectric, Journal of Materials Processing Technology, 209.

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