Machining Evaluation of High-Speed Milling for Thin-Wall Machining of Al7075-T651

This paper presents finite element method (FEM) and experimental analysis on high-speed milling for thin-wall machining of Al7075-T651. Changes in cutting forces, temperature, and chip morphology according to cutting conditions are analyzed using FEM. Results of machining experiments are analyzed in...

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Veröffentlicht in:	Applied Mechanics and Materials 2014-03, Vol.541-542 (Engineering and Manufacturing Technologies), p.785-791
Hauptverfasser:	Koo, Joon Young, Cho, Moon Ho, Kim, Pyeong Ho, Kim, Hyuk, Oh, Jeong Kyu, Kim, Jeong Suk
Format:	Artikel
Sprache:	eng
Schlagworte:	Cutting Finite element method High speed Integrity Machine tools Machining Mathematical models Surface roughness
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creator	Koo, Joon Young Cho, Moon Ho Kim, Pyeong Ho Kim, Hyuk Oh, Jeong Kyu Kim, Jeong Suk
description	This paper presents finite element method (FEM) and experimental analysis on high-speed milling for thin-wall machining of Al7075-T651. Changes in cutting forces, temperature, and chip morphology according to cutting conditions are analyzed using FEM. Results of machining experiments are analyzed in terms of cutting forces and surface integrity such as surface roughness and surface condition. Variables of cutting conditions are feed per tooth, spindle speed, and axial depth of cut. Cutting conditions to improve surface integrity were investigated by analysis on cutting forces and surface roughness, and machined surface condition.
doi_str_mv	10.4028/www.scientific.net/AMM.541-542.785
format	Article
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Changes in cutting forces, temperature, and chip morphology according to cutting conditions are analyzed using FEM. Results of machining experiments are analyzed in terms of cutting forces and surface integrity such as surface roughness and surface condition. Variables of cutting conditions are feed per tooth, spindle speed, and axial depth of cut. 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subjects	Cutting Finite element method High speed Integrity Machine tools Machining Mathematical models Surface roughness
title	Machining Evaluation of High-Speed Milling for Thin-Wall Machining of Al7075-T651
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