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Particle Finite Element Simulation of Chip Formation in Cutting Processes

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Zeitschriftentitel: Applied Mechanics and Materials
Personen und Körperschaften: Sabel, Matthias, Sator, Christian, Müller, Ralf, Kirsch, Benjamin
In: Applied Mechanics and Materials, 869, 2017, S. 50-61
Format: E-Article
Sprache: Unbestimmt
veröffentlicht:
Trans Tech Publications, Ltd.
Schlagwörter:
General Engineering
author_facet Sabel, Matthias
Sator, Christian
Müller, Ralf
Kirsch, Benjamin
Sabel, Matthias
Sator, Christian
Müller, Ralf
Kirsch, Benjamin
author Sabel, Matthias
Sator, Christian
Müller, Ralf
Kirsch, Benjamin
spellingShingle Sabel, Matthias
Sator, Christian
Müller, Ralf
Kirsch, Benjamin
Applied Mechanics and Materials
Particle Finite Element Simulation of Chip Formation in Cutting Processes
General Engineering
author_sort sabel, matthias
spelling Sabel, Matthias Sator, Christian Müller, Ralf Kirsch, Benjamin 1662-7482 Trans Tech Publications, Ltd. General Engineering http://dx.doi.org/10.4028/www.scientific.net/amm.869.50 <jats:p>The formation of chips in cutting processes is characterised by large deformations and large configurational changes and therefore challenges established modeling techniques. To overcome these difficulties, the particle finite element method (PFEM) combines the benefits of discrete modeling techniques with methods based on continuum mechanics. In this work an outline of the PFEM, as well as an explanation of the finite element formulation are provided. The impact of the boundary detection on the structural integrity is studied. The numerical examples include a tensile test as well as cutting simulations. The paper is concluded by a comparison of cutting forces with analytical results.</jats:p> Particle Finite Element Simulation of Chip Formation in Cutting Processes Applied Mechanics and Materials
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title Particle Finite Element Simulation of Chip Formation in Cutting Processes
title_unstemmed Particle Finite Element Simulation of Chip Formation in Cutting Processes
title_full Particle Finite Element Simulation of Chip Formation in Cutting Processes
title_fullStr Particle Finite Element Simulation of Chip Formation in Cutting Processes
title_full_unstemmed Particle Finite Element Simulation of Chip Formation in Cutting Processes
title_short Particle Finite Element Simulation of Chip Formation in Cutting Processes
title_sort particle finite element simulation of chip formation in cutting processes
topic General Engineering
url http://dx.doi.org/10.4028/www.scientific.net/amm.869.50
publishDate 2017
physical 50-61
description <jats:p>The formation of chips in cutting processes is characterised by large deformations and large configurational changes and therefore challenges established modeling techniques. To overcome these difficulties, the particle finite element method (PFEM) combines the benefits of discrete modeling techniques with methods based on continuum mechanics. In this work an outline of the PFEM, as well as an explanation of the finite element formulation are provided. The impact of the boundary detection on the structural integrity is studied. The numerical examples include a tensile test as well as cutting simulations. The paper is concluded by a comparison of cutting forces with analytical results.</jats:p>
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author Sabel, Matthias, Sator, Christian, Müller, Ralf, Kirsch, Benjamin
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container_title Applied Mechanics and Materials
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description <jats:p>The formation of chips in cutting processes is characterised by large deformations and large configurational changes and therefore challenges established modeling techniques. To overcome these difficulties, the particle finite element method (PFEM) combines the benefits of discrete modeling techniques with methods based on continuum mechanics. In this work an outline of the PFEM, as well as an explanation of the finite element formulation are provided. The impact of the boundary detection on the structural integrity is studied. The numerical examples include a tensile test as well as cutting simulations. The paper is concluded by a comparison of cutting forces with analytical results.</jats:p>
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spelling Sabel, Matthias Sator, Christian Müller, Ralf Kirsch, Benjamin 1662-7482 Trans Tech Publications, Ltd. General Engineering http://dx.doi.org/10.4028/www.scientific.net/amm.869.50 <jats:p>The formation of chips in cutting processes is characterised by large deformations and large configurational changes and therefore challenges established modeling techniques. To overcome these difficulties, the particle finite element method (PFEM) combines the benefits of discrete modeling techniques with methods based on continuum mechanics. In this work an outline of the PFEM, as well as an explanation of the finite element formulation are provided. The impact of the boundary detection on the structural integrity is studied. The numerical examples include a tensile test as well as cutting simulations. The paper is concluded by a comparison of cutting forces with analytical results.</jats:p> Particle Finite Element Simulation of Chip Formation in Cutting Processes Applied Mechanics and Materials
spellingShingle Sabel, Matthias, Sator, Christian, Müller, Ralf, Kirsch, Benjamin, Applied Mechanics and Materials, Particle Finite Element Simulation of Chip Formation in Cutting Processes, General Engineering
title Particle Finite Element Simulation of Chip Formation in Cutting Processes
title_full Particle Finite Element Simulation of Chip Formation in Cutting Processes
title_fullStr Particle Finite Element Simulation of Chip Formation in Cutting Processes
title_full_unstemmed Particle Finite Element Simulation of Chip Formation in Cutting Processes
title_short Particle Finite Element Simulation of Chip Formation in Cutting Processes
title_sort particle finite element simulation of chip formation in cutting processes
title_unstemmed Particle Finite Element Simulation of Chip Formation in Cutting Processes
topic General Engineering
url http://dx.doi.org/10.4028/www.scientific.net/amm.869.50