Szczegóły

Tytuł artykułu

Experimental Investigation on Cutting Forces, Specific Cutting Pressure, Co-Efficient of Friction and Shear Energy in Turning of HSLA Steel

Tytuł czasopisma

Management and Production Engineering Review

Rocznik

2016

Numer

No 1

Autorzy publikacji

Wydział PAN

Nauki Techniczne

Wydawca

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

Data

2016

Identyfikator

ISSN 2080-8208 ; eISSN 2082-1344

Referencje

Davim (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.

DOI

10.1515/mper-2016-0008

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