Similarity considerations on the simulation of turning processes of steels

Lionel Delonnoy; Thomas Hochrainer; Volker Schulze; Detlef Löhe; Peter Gumbsch

doi:10.3139/146.101099

Similarity considerations on the simulation of turning processes of steels

Lionel Delonnoy, Thomas Hochrainer, Volker Schulze^*, Detlef Löhe, Peter Gumbsch

^*Corresponding author for this work

Institute of Strength of Materials (3040)

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

Abstract

In order to investigate size effects occurring in the miniaturization of turning processes a complete dimensional analysis using a materials model for high-speed deformation was performed. The derived dimensionless similarity numbers were used to guide the parameter variation in simplified two-dimensional finite-element simulations for orthogonal cutting. The rate-dependent material model leads to size effects like an increase of the specific cutting force while reducing the cutting depth. A counter-intuitive dependence of the cutting force on cutting velocity is explained using a shear-plane model. The derived dependencies on single input parameters are used to predict output values while simultaneously changing several input parameters.

Original language	English
Pages (from-to)	761-769
Number of pages	9
Journal	Zeitschrift für Metallkunde
Volume	96
Issue number	7
DOIs	https://doi.org/10.3139/146.101099
Publication status	Published - Aug 2005

Keywords

Similarity rules
Size effects
Turning process

ASJC Scopus subject areas

Metals and Alloys

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10.3139/146.101099

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abstract = "In order to investigate size effects occurring in the miniaturization of turning processes a complete dimensional analysis using a materials model for high-speed deformation was performed. The derived dimensionless similarity numbers were used to guide the parameter variation in simplified two-dimensional finite-element simulations for orthogonal cutting. The rate-dependent material model leads to size effects like an increase of the specific cutting force while reducing the cutting depth. A counter-intuitive dependence of the cutting force on cutting velocity is explained using a shear-plane model. The derived dependencies on single input parameters are used to predict output values while simultaneously changing several input parameters.",

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author = "Lionel Delonnoy and Thomas Hochrainer and Volker Schulze and Detlef L{\"o}he and Peter Gumbsch",

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AU - Delonnoy, Lionel

AU - Hochrainer, Thomas

AU - Schulze, Volker

AU - Löhe, Detlef

AU - Gumbsch, Peter

PY - 2005/8

Y1 - 2005/8

N2 - In order to investigate size effects occurring in the miniaturization of turning processes a complete dimensional analysis using a materials model for high-speed deformation was performed. The derived dimensionless similarity numbers were used to guide the parameter variation in simplified two-dimensional finite-element simulations for orthogonal cutting. The rate-dependent material model leads to size effects like an increase of the specific cutting force while reducing the cutting depth. A counter-intuitive dependence of the cutting force on cutting velocity is explained using a shear-plane model. The derived dependencies on single input parameters are used to predict output values while simultaneously changing several input parameters.

AB - In order to investigate size effects occurring in the miniaturization of turning processes a complete dimensional analysis using a materials model for high-speed deformation was performed. The derived dimensionless similarity numbers were used to guide the parameter variation in simplified two-dimensional finite-element simulations for orthogonal cutting. The rate-dependent material model leads to size effects like an increase of the specific cutting force while reducing the cutting depth. A counter-intuitive dependence of the cutting force on cutting velocity is explained using a shear-plane model. The derived dependencies on single input parameters are used to predict output values while simultaneously changing several input parameters.

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KW - Turning process

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Similarity considerations on the simulation of turning processes of steels

Abstract

Keywords

ASJC Scopus subject areas

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