Determination of process parameters and maximum utility of resources are the two main concerns while designing the manufacturing process for products. The process parameters affect the final product shape and aesthetic look; whereas utility refers to the output. In order to enhance surface micro-finish and geometrical accuracy of functional surfaces, it is necessary to optimized process parameters. Honing is an abrasive machining process that can produce very exact results regarding geometry, form and surface quality of the honed work piece. It is mainly used as the final finishing operation for ready-made bores and has to meet high demands regarding process stability and repeatability. As it can create a high ratio of bearing contact area to total area together with a high surface quality it is often used for highly stressed parts. The interface between honing stone and work piece and the movement of the honing stone are very important for the process. Study is made to understand the optimum process parameters that affect the outcomes of Honing process. It was found that the parameters such as the honing speed, honing feed pressures – rough and finish, grit size, play a predominant role on the quality of surface produced.

variations in cylinder liners induced by honing tool wear”, Elsevier - Precision Engineering,Vol. 41 ,pp. 40–46 .

Corral, B.I., Vivancos-Calvet, J.(2011), “Roughness variability in the honing process of steel cylinders with CBN metal bonded tools”, Precision Engineering, Vol.35,No.2,pp. 289-293

Corral, B.I., Vivancos-Calvet, J., Coba-Salcedo, M. (2010), “Use of roughness probability parameters to quantify the material removed in plateau-honing”, International Journal of Machine Tools and Manufacture, Vol.50,pp. 621-629.

El Mansori M., Goedel M. and Sabri L.(2013), “ Performance impact on honing dynamics on surface finish of precoated cylinder bores”, Surface and Coatings Technology,Vol.215,pp.334-39

Ertuğrul, E., Çınar, C.(2010) “The Investigation of Parameters Affecting Oil Consumption in a Diesel Engine”, Electron. J. Vehicle Tech.,Vol. 2,No.2,pp. 1-9.

Gunay.M and Korkmaz M.E(2017),” Optimization of Honing Parameters for Renewal of Cylinder Liners”, Journal of Science,Vol.30,No. 1,pp.111-119

Kanthababu M., Shunmugam M., and Singaperumal M.(2009), “ Identification of significant parameters and appropriate levels in honing of cylinder liners”, Int. J. Machinability of Materials, Vol.5, No.1, pp.80-96.

Lawrence, D., Ramamoorthy, B.(2014), “Multi-surface topography targeted plateau honing for the processing of cylinder liner surfaces of automotive engines”, Applied Surface Science, Vol.365,pp.19-30.

Pawlus P., Cieslak T. and Mathia T.(2009), “ The study of cylinder liner plateau honing process. Journal of Materials Processing Technology”, Vol. 209, pp. 6078-6086.

Pimpalgaonkar. M.H., Ghuge R. L., and Ghuge S.L ( 2013).,“ A Review of Optimization Process Parameters on Honing Machine”, International Journal of Mechanical and Production Engineering,Vol1,No.5,pp.45-50.

Sabri L., Mezghania S., El Mansoria M. and Zahouanic H. (2011) ,“Multiscale study of finish-honing process in mass production of cylinder liner” , Elsevier - Wear ,Vol.271,pp. 509–513.

Santochi M., Giusti F. and Vignale M.(1982), “ A study on the functional properties of a honed surface”, CIRP Annals - Manufacturing Technology. , Vol.3, No.1, pp.431-34.

Silva, S.P., Filho, L.M.R., Brandao, L.C.(2014), “Particle swarm optimization for achieving the minimum profile error in honing process”, Precision Engineering, Vol.38,pp. 759-768.

Singh B.,Bansal,S. and Mishra, P.(2016) “ Artificial Neural Network Modeling And Optimization In Honing Process ”, International Journal of Computer Engineering & Technology,Vol.7, No. 3, pp.67-77

Sivatte-Adroer, M., Llanas Parra, X., Buj-Corral, I., Vivancos-Calvet, J.(2016), “Indirect model for roughness in rough honing processes based on artificial neural networks”, Precision Engineering, Vol.43,pp. 505-513.

Tripathi B.N., Singh n.K. and Vates U.K.(2015), “Surface Roughness Influencing Process Parameters & Modeling Techniques for Four Stroke Motor Bike Cylinder Liners during Honing: Review”, International Journal of Mechanical & Mechatronics Engineering Vol:15 No:01,pp.-106-112

Vrac D., Sidjanin L., Balos S.,(2014),“ The Effect of Honing Speed and Grain Size on Surface Roughness and Material Removal Rate during Honing”, Acta Polytechnica Hungarica, Vol.11,No.11, pp.163-175.

Vrac D., Sidjanin L.and Balos S.(2014), “The Effect of Honing Speed and Grain Size on Surface Roughness and Material Removal Rate during Honing”, Acta Polytechnica Hungarica Vol. 11, No. 10, 2014.

Vrac D.S., Sidjanin L.P. and Balos S.S.(2011), “ Mechanical finishing honing: cutting regimes and surface texture”, Industrial Lubrication and Tribology,Vol.63,No.6,pp.427-32.