A Mechanistic Dynamic Model of End Milling for Process Controller Simulation

F. M. Kolarits; W. R. DeVries

Source: Journal of Manufacturing Science and Engineering:;1991:;volume( 113 ):;issue: 002::page 176

Author:

F. M. Kolarits

W. R. DeVries

DOI: 10.1115/1.2899675

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: In an effort to maximize the metal removal rate in end milling while avoiding excessive cutter deflection or breakage, both fixed gain and adaptive controllers have been implemented for on-line feedrate manipulation to maintain a constant cutting force. While such controllers have been able to increase the metal cutting efficiency, they have also exhibited performance problems when large changes in the process dynamics occur. To assist in controller design and evaluation through digital simulation, a new dynamic model of the end milling force response to changes in feedrate and/or spindle speed is presented. This model, based on chip formation mechanics, takes explicitly into account the effect of cutter runout and deflection on the chip load, permits variations in the axial and radial depths of cut to be modeled, and provides surface geometry predictions. Model predictions are shown to correspond well with experimental machining data.

keyword(s): Control equipment , Simulation , Milling , Dynamic models , Deflection , Force , Machining , Computer simulation , Metal cutting , Spindles (Textile machinery) , Stress , Design , Cutting , Geometry AND Dynamics (Mechanics) ,

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A Mechanistic Dynamic Model of End Milling for Process Controller Simulation

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contributor author	F. M. Kolarits
contributor author	W. R. DeVries
date accessioned	2017-05-08T23:36:02Z
date available	2017-05-08T23:36:02Z
date copyright	May, 1991
date issued	1991
identifier issn	1087-1357
identifier other	JMSEFK-27749#176_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/108836
description abstract	In an effort to maximize the metal removal rate in end milling while avoiding excessive cutter deflection or breakage, both fixed gain and adaptive controllers have been implemented for on-line feedrate manipulation to maintain a constant cutting force. While such controllers have been able to increase the metal cutting efficiency, they have also exhibited performance problems when large changes in the process dynamics occur. To assist in controller design and evaluation through digital simulation, a new dynamic model of the end milling force response to changes in feedrate and/or spindle speed is presented. This model, based on chip formation mechanics, takes explicitly into account the effect of cutter runout and deflection on the chip load, permits variations in the axial and radial depths of cut to be modeled, and provides surface geometry predictions. Model predictions are shown to correspond well with experimental machining data.
publisher	The American Society of Mechanical Engineers (ASME)
title	A Mechanistic Dynamic Model of End Milling for Process Controller Simulation
type	Journal Paper
journal volume	113
journal issue	2
journal title	Journal of Manufacturing Science and Engineering
identifier doi	10.1115/1.2899675
journal fristpage	176
journal lastpage	183
identifier eissn	1528-8935
keywords	Control equipment
keywords	Simulation
keywords	Milling
keywords	Dynamic models
keywords	Deflection
keywords	Force
keywords	Machining
keywords	Computer simulation
keywords	Metal cutting
keywords	Spindles (Textile machinery)
keywords	Stress
keywords	Design
keywords	Cutting
keywords	Geometry AND Dynamics (Mechanics)
tree	Journal of Manufacturing Science and Engineering:;1991:;volume( 113 ):;issue: 002
contenttype	Fulltext

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