FORCED VIBRATION, CHATTER, ACCURACY, IN HIGH SPEED MILLING.

J. Tlusty; S. Smith

FORCED VIBRATION, CHATTER, ACCURACY, IN HIGH SPEED MILLING.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

10 Scopus citations

Abstract

High speed, high power milling is being introduced in important sectors of manufacturing. One of the problems is the dynamics of high speed milling. The paper shows that, for accuracy of the machined surface, only negligible errors are produced. For stability, it is possible to use the most powerful stability lobe at a speed where the tooth frequency equals the natural frequency of the system. Although resonant forced vibrations impose a limit on this lobe, gains of 3 to 6 times in limit metal removal rate are still possible by choosing an optimum spindle speed.

Original language	English
Title of host publication	Manufacturing Engineering Transactions
Publisher	SME, North American Manufacturing Research Inst
Pages	221-229
Number of pages	9
ISBN (Print)	0872631869
State	Published - 1985
Externally published	Yes

Publication series

Name	Manufacturing Engineering Transactions
ISSN (Print)	0363-700X

Cite this

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N2 - High speed, high power milling is being introduced in important sectors of manufacturing. One of the problems is the dynamics of high speed milling. The paper shows that, for accuracy of the machined surface, only negligible errors are produced. For stability, it is possible to use the most powerful stability lobe at a speed where the tooth frequency equals the natural frequency of the system. Although resonant forced vibrations impose a limit on this lobe, gains of 3 to 6 times in limit metal removal rate are still possible by choosing an optimum spindle speed.

AB - High speed, high power milling is being introduced in important sectors of manufacturing. One of the problems is the dynamics of high speed milling. The paper shows that, for accuracy of the machined surface, only negligible errors are produced. For stability, it is possible to use the most powerful stability lobe at a speed where the tooth frequency equals the natural frequency of the system. Although resonant forced vibrations impose a limit on this lobe, gains of 3 to 6 times in limit metal removal rate are still possible by choosing an optimum spindle speed.

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M3 - Conference contribution

AN - SCOPUS:0022291231

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BT - Manufacturing Engineering Transactions

PB - SME, North American Manufacturing Research Inst

ER -

FORCED VIBRATION, CHATTER, ACCURACY, IN HIGH SPEED MILLING.

Abstract

Publication series

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