Effect of Cutting Parameter on Hard Turning by using Different Lubricating Conditions: A Review
Citation
Rishi Sharma, Vipan Bansal, Nischal Chhabra"Effect of Cutting Parameter on Hard Turning by using Different Lubricating Conditions: A Review", International Journal of Engineering Trends and Technology (IJETT), V30(2),75-82 December 2015. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group
Abstract
The major problem in mass production is
concerned with achieving the good dimensional
products with high quality, high productivity, less
wear and cutting fluid on the cutting insert, and less
time consumed. Now a day in manufacturing hard
turning plays an important role, its techniques are
very essential for replacing grinding/ finishing
operations with the help of single point cutting tools.
Hardness above 45 HRC can be machined in hard
turning operation very easily or effetely. In this
article; review of different techniques and effect of
cutting parameters were studied along with different
lubricating conditions; which plays a significant role
in hard turning. The objective of this study is to
know about optimum machining parameters and best
conditions with dry or solid lubricants for hard
turning operation and it is also important to find the
research gap through different studies.
Solid lubricants were used in hard turning for better
results. It has been found that with solid lubricants
surface roughness value decreased as compare to
dry hard turning. The proper selection of lubricants
in the solid state along with cutting conditions and
tool angles is essential for achieving the overall
improvement in hard turning process. With the use
of lubricants in the solid form hard turning may
become a viable alternative to dry and wet hard
turning process.
References
[1]. A. Srithara, K. Palanikumarb, B. Durgaprasad, “Experimental
Investigation and Surface roughness Analysis on Hard turning of
AISI D2 Steel using Coated Carbide Insert” , Procedia
Engineering 97 (2014 ) 72 – 77.
[2]. W. Grzesik, Krzysztof Zak, Piotr Kiszka, “Comparison of
surface textures generated in hard turning and grinding
operations”, Procedia CIRP 13 (2014 ) 84 – 89.
[3]. B. Varaprasad, S Rao., P.V. Vinay, “Effect of Machining
Parameters on Tool Wear in Hard Turning of AISI D3 Steel”,
Procedia Engineering 97 (2014) 338 – 345.
[4]. Tao Chen, Suyan Li, Bangxin Han, Guangjun Liu, “Study on
cutting force and surface micro-topography of hard turning of
GCr15 steel” , International Journal of Advance Manufacturing
Technology (2014) 72:1639–1645.
[5]. H-J Hu, W-J Huang, “Studies on wears of ultrafine-grained
ceramic tool and common ceramic tool during hard turning using
Archard wear model”, International Journal of Advance Manufacturing
Technology (2013) 69:31–39.
[6]. Roland Meyer, Jens Köhler, Berend Denkena, “Influence of
the tool corner radius on the tool wear and process forces during
hard turning”, International Journal of Advance Manufacturing
Technology (2012) 58:933–940.
[7]. Jinming M. Zhou, Stefan Hognas, Jan-Eric Stahl, “Improving
waviness of bore in precision hard turning by pressurized coolant”,
International Journal of Advance Manufacturing Technology (2010)
49:469–474.
[8]. Singh Dilbag, P. V. Rao, “Performance improvement of hard
turning with solid lubricants”, International Journal of Advance
Manufacturing Technology (2008) 38:529–535.
[9]. G. Mamalis, J. Kundrák, A. Markopoulos, D. E. Manolakos,
“On the finite element modelling of high speed hard Turning”,
International Journal of Advance Manufacturing Technology (2008)
38:441–446.
[10]. Singh Dilbag, P. V. Rao, “A surface roughness prediction
model for hard turning process”, International Journal of Advance
Manufacturing Technology (2007) 32: 1115–1124.
[11]. Yong Huang , Steven Y. Liang, “Modelling of CBN tool
crater wear in finish hard turning”, International Journal of Advance
Manufacturing Technology (2004) 24: 632–639.
[12]. Kang He, Qingsong Xu and Minping Jia, “Modeling and
Predicting Surface Roughness in Hard Turning Using a Bayesian
Inference-Based HMM-SVM Model”, 1545-5955 © 2014 IEE
[13]. B. Anuja Beatricea, E. Kirubakaranb, P. Ranjit Jeba
Thangaiahc, K. Leo Dev Winsd, “Surface Roughness Prediction
using Artificial Neural Network in Hard Turning of AISI H13
Steel with Minimal Cutting Fluid Application”, Procedia
Engineering 97 ( 2014 ) 205 – 211.
[14]. Suha K. Shihab, Zahid A. Khan, A. Mohammad, A. Noor
Siddiqueed, ”RSM Based Study of Cutting Temperature during
Hard Turning with Multilayer Coated Carbide Insert”, Procedia
Materials Science 6 (2014) 1233 – 1242.
[15]. A Pal, S.K. Choudhury, S Chinchanikar, “Machinability
Assessment through Experimental Investigation during Hard and
Soft Turning of Hardened Steel”, Procedia Materials Science 6
(2014) 80 – 91.
[16]. Philippe Revel, Nabil Jouini, Guillaume Thoquenne, Fabien
Lefebvre, “High precision hard turning of AISI 52100 bearing
steel”, Precision Engineering (2015).
[17]. Bordin, S. Bruschi, A. Ghiotti,” The effect of cutting speed
and feed rate on the surface integrity in dry turning of CoCrMo
alloy”, Procedia CIRP 13 ( 2014 ) 219 – 224.
[18]. S.B. Hosseini, U. Klement, Y. Yao and K. Ryttberg,
“Formation mechanisms of white layers induced by hard turning
of AISI 52100 steel”, Acta Materialia 89 (2015) 258–267.
[19]. C.E.H. Ventura, J. Köhler, B. Denkena, “Influence of
cutting edge geometry on tool wear performance in interrupted
hard turning”, Journal of Manufacturing Processes 19 (2015)
129–134.
[20]. P. Vamsi Krishna, D. Nageswara Rao, “Performance
evaluation of solid lubricants in terms of machining parameters in
turning”, international journal of machine tools & manufacture 48
(2008) 1131-1137.
[21]. P. Sam Paul, A.S. Varadarajan, S. Mohanasundaram, ”Effect
of magneto rheological fluid on tool wear during hard turning
with minimal fluid application”, archives of civil and
mechanical engineering (2014).
[22]. Anselmo Eduardo Diniz , Ricardo Micaroni ,”Influence of
the direction and flow rate of the cutting fluid on tool life in
turning process of AISI 1045 steel” international journal of
machine tools & manufacture 47 (2007) 247-254.
Keywords
Hard turning, Cutting parameters,
Cutting forces, Surface finish, Tool wear, Lubricants.