Indian Journal of Science and Technology
Year: 2016, Volume: 9, Issue: 37, Pages: 1-7
S. Jeevanantham1*, J. David Rathnaraj2 , D. S. Robinson Smart3 , S. Nallusamy4 and N. Manikanda Prabu5
1 Department of Mechanical Engineering, Karpagam University, Coimbatore - 641021, Tamil Nadu, India; [email protected]
2 Department of Mechanical Engineering, Sri Ramakrishna Engineering College, Coimbatore - 641022, Tamil Nadu, India; [email protected]
3 School of Mechanical Sciences, Karunya University, Coimbatore - 641114, Tamil Nadu, India; robinsonsmart66@ gmail.com
4 Department of Mechanical Engineering, Dr. M G R Educational and Research Institute, Chennai - 600095, Tamil Nadu, India; [email protected]
5 Department of Mechanical Engineering, Nehru institute of Engineering and Technology, Coimbatore - 641105, Tamil Nadu, India; [email protected]
*Author for correspondence
Department of Mechanical Engineering
Email: [email protected]
Objective: To generate the information about the process of internal grinding applied to envisage the grinding performance and accomplish the optimal operating procedure characteristics. In recent engineering and technology surface finish and precision are playing a major role in the manufacturing organizations. Method/Analysis: Different methods such as burnishing, honing, lapping and grinding are exercised for accomplishing good quality of surface finish. Grinding is the appropriate method for improving the surface finish and precision concurrently between all of those constraints. Recently lot of researches has been carried out on surface grinding process, but only few articles were elaborately described about the internal grinding procedure. In view of the fact the internal grinding processes was chosen as a main tool to characterize throughout this study. Findings: Similar to surface grinding various process parameters are used to get high surface finish and it could be achieved for the various components. This article relating the possibilities to get greater surface finish in internal grinding process and also it demonstrates the machining parameters involved in this process. Application/ Improvements: The machining parameters involved in these abrasive machining technologies were speed, feed, depth of cut and material removal rate and also these constraints were considered throughout the theoretical investigation.
Keywords: Internal Grinding, MRR, Process Constraints, Surface Roughness, Surface Finish
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