Optimization of Cutting Conditions for Surface Roughness in VMC 5-Axis

Vertical machining center (VMC) five-axis is advanced metal cutting process which used tomachine advanced materials for creating parts for industries like die, automotive, aerospace, machinerydesign, etc. Input parameters selection very important in VMC-five axis to obtain better surface finishon mi...

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Veröffentlicht in:	Materials science forum 2019-08, Vol.969, p.631-636
Hauptverfasser:	Rudrapati, Ramesh, Patil, Arun
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms Automobile industry Automotive engineering Automotive parts Economic analysis Five axis Machine tools Machining centres Metal cutting Milling (machining) Numerical controls Optimization Parameters Response surface methodology Surface roughness Vertical milling machines
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creator	Rudrapati, Ramesh Patil, Arun
description	Vertical machining center (VMC) five-axis is advanced metal cutting process which used tomachine advanced materials for creating parts for industries like die, automotive, aerospace, machinerydesign, etc. Input parameters selection very important in VMC-five axis to obtain better surface finishon milled part and enhanced machining economics. In the present work, experimental analysis has beenplanned to study the significances of milling parameters on quality response, surface roughness (Ra) ofD3 steel. The experiments have been planned on D3 steel in VMC five axis as per Box-Behnken designof response surface methodology (RSM). Modeling and optimization have been done by hybrid RSMand Jaya optimization algorithm. The factor effects on Ra has been studied by analysis of signal-tonoise ratio. The concluding remarks has been drawn from the study
doi_str_mv	10.4028/www.scientific.net/MSF.969.631
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subjects	Algorithms Automobile industry Automotive engineering Automotive parts Economic analysis Five axis Machine tools Machining centres Metal cutting Milling (machining) Numerical controls Optimization Parameters Response surface methodology Surface roughness Vertical milling machines
title	Optimization of Cutting Conditions for Surface Roughness in VMC 5-Axis
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