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Surface Integrity of machined surfaces is defined based on various constituents e.g. surface roughness, microstructure, surface hardening and microhardness, which all are influenced by machining parameters such as coolant, cutting speed, tool wear, feed, depth of cut and tool material and its geometry. An effort has been made in this book to study the effect of slab down milling process parameters on surface integrity of HSLA (ASTM A572 Grade 50). Experiments were performed as per Taguchi L18 orthogonal array for different combinations of machining parameters to collect data which were…mehr

Produktbeschreibung
Surface Integrity of machined surfaces is defined based on various constituents e.g. surface roughness, microstructure, surface hardening and microhardness, which all are influenced by machining parameters such as coolant, cutting speed, tool wear, feed, depth of cut and tool material and its geometry. An effort has been made in this book to study the effect of slab down milling process parameters on surface integrity of HSLA (ASTM A572 Grade 50). Experiments were performed as per Taguchi L18 orthogonal array for different combinations of machining parameters to collect data which were subsequently statistically analysed to optimize multi-performance characteristics. This book explains in detail the procedure for conducting experiments and using grey relational analysis for multi-performance characteristics optimization. It is meant for students and researchers of production and industrial engineering.
Autorenporträt
Pankul Goel is an Assistant Professor at the Mechanical Engineering Department, Vidya College of Engineering, Vidya Knowledge Park, Baghpat Road, Meerut, Uttar Pardesh, India. His research interest includes machining, optimisation of design and process parameters. He received his M.Tech. from Jamia Millia Islamia (A Central University) in New Delhi