The use of volume of solid (VOS) approach in simulating metal cutting with chamfered and blunt tools

K. S. Al-Athel; M. S. Gadala

doi:10.1016/j.ijmecsci.2010.10.003

The use of volume of solid (VOS) approach in simulating metal cutting with chamfered and blunt tools

K. S. Al-Athel, M. S. Gadala

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

16 Scopus citations

Abstract

A new volume of solid (VOS) method is proposed for simulating metal cutting applications. The method utilizes the Eulerian finite element formulation along with a numerical scheme to calculate volume of solid fractions in empty elements or cells. The method is shown to overcome problems with existing finite element formulations and may easily track and model the unconstrained flow of the material at free boundaries. As a sample application, the method is used to study the effect of introducing a chamfer angle to the tool or using a blunt (worn) tool on some of the process variable and on the cutting forces both in the cutting and thrust directions. The results of the VOS method are compared to similar results obtained using the arbitrary LagrangianEulerian approach and to experimental results that were performed for one sharp and two chamfered tools.

Original language	English
Pages (from-to)	23-30
Number of pages	8
Journal	International Journal of Mechanical Sciences
Volume	53
Issue number	1
DOIs	https://doi.org/10.1016/j.ijmecsci.2010.10.003
State	Published - Jan 2011
Externally published	Yes

Keywords

Finite element method
Orthogonal metal cutting
VOS

ASJC Scopus subject areas

Civil and Structural Engineering
General Materials Science
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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10.1016/j.ijmecsci.2010.10.003

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abstract = "A new volume of solid (VOS) method is proposed for simulating metal cutting applications. The method utilizes the Eulerian finite element formulation along with a numerical scheme to calculate volume of solid fractions in empty elements or cells. The method is shown to overcome problems with existing finite element formulations and may easily track and model the unconstrained flow of the material at free boundaries. As a sample application, the method is used to study the effect of introducing a chamfer angle to the tool or using a blunt (worn) tool on some of the process variable and on the cutting forces both in the cutting and thrust directions. The results of the VOS method are compared to similar results obtained using the arbitrary LagrangianEulerian approach and to experimental results that were performed for one sharp and two chamfered tools.",

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AU - Al-Athel, K. S.

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N2 - A new volume of solid (VOS) method is proposed for simulating metal cutting applications. The method utilizes the Eulerian finite element formulation along with a numerical scheme to calculate volume of solid fractions in empty elements or cells. The method is shown to overcome problems with existing finite element formulations and may easily track and model the unconstrained flow of the material at free boundaries. As a sample application, the method is used to study the effect of introducing a chamfer angle to the tool or using a blunt (worn) tool on some of the process variable and on the cutting forces both in the cutting and thrust directions. The results of the VOS method are compared to similar results obtained using the arbitrary LagrangianEulerian approach and to experimental results that were performed for one sharp and two chamfered tools.

AB - A new volume of solid (VOS) method is proposed for simulating metal cutting applications. The method utilizes the Eulerian finite element formulation along with a numerical scheme to calculate volume of solid fractions in empty elements or cells. The method is shown to overcome problems with existing finite element formulations and may easily track and model the unconstrained flow of the material at free boundaries. As a sample application, the method is used to study the effect of introducing a chamfer angle to the tool or using a blunt (worn) tool on some of the process variable and on the cutting forces both in the cutting and thrust directions. The results of the VOS method are compared to similar results obtained using the arbitrary LagrangianEulerian approach and to experimental results that were performed for one sharp and two chamfered tools.

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JF - International Journal of Mechanical Sciences

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The use of volume of solid (VOS) approach in simulating metal cutting with chamfered and blunt tools

Abstract

Keywords

ASJC Scopus subject areas

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