Generalized dynamic model of metal cutting operations

Y. Altintas; Z. M. Kilic

doi:10.1016/j.cirp.2013.03.034

Generalized dynamic model of metal cutting operations

Y. Altintas^*, Z. M. Kilic

^*Corresponding author for this work

Mechanical and Aerospace Engineering

University of British Columbia

Research output: Contribution to journal › Article › peer-review

Abstract

This paper presents a unified mathematical model which allows the prediction of chatter stability for multiple machining operations with defined cutting edges. The normal and friction forces on the rake face are transformed to edge coordinates of the tool. The dynamic forces that contain vibrations between the tool and workpiece are transformed to machine tool coordinates with parameters that are set differently for each cutting operation and tool geometry. It is shown that the chatter stability can be predicted simultaneously for multiple cutting operations. The application of the model to single-point turning and multi-point milling is demonstrated with experimental results.

Original language	English
Pages (from-to)	47-50
Number of pages	4
Journal	CIRP Annals - Manufacturing Technology
Volume	62
Issue number	1
DOIs	https://doi.org/10.1016/j.cirp.2013.03.034
Publication status	Published - 16 Apr 2013

Keywords

Chatter
Cutting
Stability

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10.1016/j.cirp.2013.03.034

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abstract = "This paper presents a unified mathematical model which allows the prediction of chatter stability for multiple machining operations with defined cutting edges. The normal and friction forces on the rake face are transformed to edge coordinates of the tool. The dynamic forces that contain vibrations between the tool and workpiece are transformed to machine tool coordinates with parameters that are set differently for each cutting operation and tool geometry. It is shown that the chatter stability can be predicted simultaneously for multiple cutting operations. The application of the model to single-point turning and multi-point milling is demonstrated with experimental results.",

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AB - This paper presents a unified mathematical model which allows the prediction of chatter stability for multiple machining operations with defined cutting edges. The normal and friction forces on the rake face are transformed to edge coordinates of the tool. The dynamic forces that contain vibrations between the tool and workpiece are transformed to machine tool coordinates with parameters that are set differently for each cutting operation and tool geometry. It is shown that the chatter stability can be predicted simultaneously for multiple cutting operations. The application of the model to single-point turning and multi-point milling is demonstrated with experimental results.

KW - Chatter

KW - Cutting

KW - Stability

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IS - 1

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Generalized dynamic model of metal cutting operations

Abstract

Keywords

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