TitleExperimental Investigation on Cutting Forces, Specific Cutting Pressure, Co-Efficient of Friction and Shear Energy in Turning of HSLA Steel
Journal titleManagement and Production Engineering Review
Divisions of PASNauki Techniczne
PublisherProduction Engineering Committee of the Polish Academy of Sciences, Polish Association for Production Management
IdentifierISSN 2080-8208 ; eISSN 2082-1344
ReferencesDavim (2005), A new machinability index in turning fiber reinforced plastics, Mater Process Tech, 170. ; Suresh (2012), Some studies on hard turning of steel using multilayer coated carbide tool, Measurement, 4340. ; Selvaraj (2014), Optimization of surface roughness cutting force and tool wear of nitrogen alloyed duplex stainless steel in a dry turning process using Taguchi method, Measurement, 49. ; Thakur (2009), Machinability investigation of in highspeed turning, Int J Adv Manuf Technol, 718. ; Sharma (2008), Estimation of cutting forces and surface roughness for hard turning using neural networks, Intell Manuf, 19. ; Pawade (2009), An analytical model to predict specific shear energy in highspeed turning of, Int J Mach Tool Manu, 718. ; Davim (2007), New machinability study of glass fibre reinforced plastics using polycrystalline diamond and cemented carbide tools Des, Mater, 15, 28. ; Mandal (2012), Force prediction model of Zirconia Toughened Alumina inserts in hard turning of steel using response surface methodology, Int J Precis Eng Manuf, 4340. ; Babu (2013), Experimental investigation of laser transformation hardening of low alloy steel using response surface methodology, Int J Adv Manuf Technol, 67. ; Sreejith (2007), Effect of specific cutting pressure and temperature during machining of carbon / phenolic ablative composite using PCBN tools, Mater Process Tech, 183. ; Ernst (1941), Chip formation friction and high quality machined surfaces, Trans ASME, 29. ; Davim (2002), Diamond tool performance in machining metal - matrix composites, Mater Process Tech, 128. ; Davim (2007), Machinability evaluation in hard turning of cold work tool steel with ceramic tools using statistical techniques Des, Mater, 2, 28. ; Kıyak (2004), akır Comparison of gases applications to wet and dry cuttings in turning, Mater Process Tech, 153. ; El Hakim (2015), Effect of secondary hardening on cutting forces cutting temperature and tool wear in hard turning of high alloy tool steels, Measurement, 65. ; Gupta (2015), Investigation of surface roughness and MRR for turning of UD - GFRP using PCA and Taguchi method, Jestech, 1. ; Duflou (2012), Critical comparison of methods to determine the energy input for discrete manufacturing processes CIRP Ann - manuf, Techn, 61. ; Devillez (2011), Dry machining of workpiece surface integrity, Mater Process Tech, 718. ; Thakur (2009), Study on the machinability characteristics of superalloy during high speed turning Des, Mater, 718. ; Lawal (2015), Experimental Evaluation and Optimization of Flank Wear During Turning of Steel with Coated Carbide Inserts Using Different Cutting Fluids of India Series, Journal, 4340.