Finite element simulation and analysis of size effect in micro-milling process

Xuemei Yu; Yazhou Sun; Haitao Liu

doi:10.4028/www.scientific.net/AMM.16-19.1159

Finite element simulation and analysis of size effect in micro-milling process

Xuemei Yu^*
, Yazhou Sun
, Haitao Liu

^*Corresponding author for this work

Jiangsu Ocean University
School of Mechatronics Engineering, Harbin Institute of Technology

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

1 Scopus citations

Abstract

In order to determine the minimum thickness of cutting under different cutting condition of aluminum alloy materials 2A12 of micro-milling, research the size effect caused by the cutting edge radius and few microns per tooth in micro-milling process. Using thermal coupling model of Johnson-Cook as a material model of the workpiece, using Johnson-Cook shear failure of the law as part of the failure criteria, using coupled plane strain thermal units and hybrid adaptive grid technology to mesh, the friction between the tool and workpiece take the amendment Coulomb's law that combine with the sliding friction areas and areas of the adhesive friction, to the micro-milling by nonlinear and elastic-plastic finite element simulation. Through finite element analysis, the ratio of minimum radius of thickness to the cutting edge tool radius under different conditions of cutting speed and cutter blade was got, the size effect, stress field and cutting force under different cutting depth was got, and comparing and analysis the results, getting the various factors impact on the size effect of micro-milling, it provide a basis for the actual processing.

Original language	English
Title of host publication	e-Engineering and Digital Enterprise Technology VII
Pages	1159-1163
Number of pages	5
DOIs	https://doi.org/10.4028/www.scientific.net/AMM.16-19.1159
State	Published - 2009
Externally published	Yes
Event	7th International Conference on e-Engineering and Digital Enterprise Technology - Shenyang, China Duration: 3 Sep 2009 → 5 Sep 2009

Publication series

Name	Applied Mechanics and Materials
Volume	16-19
ISSN (Print)	1660-9336
ISSN (Electronic)	1662-7482

Conference

Conference	7th International Conference on e-Engineering and Digital Enterprise Technology
Country/Territory	China
City	Shenyang
Period	3/09/09 → 5/09/09

Keywords

Finite element method
Micro-milling
Minimum chip thickness
Size effect

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10.4028/www.scientific.net/AMM.16-19.1159

Cite this

@inproceedings{97d2934736e74a1f9e4fd9eb39979a5e,

title = "Finite element simulation and analysis of size effect in micro-milling process",

abstract = "In order to determine the minimum thickness of cutting under different cutting condition of aluminum alloy materials 2A12 of micro-milling, research the size effect caused by the cutting edge radius and few microns per tooth in micro-milling process. Using thermal coupling model of Johnson-Cook as a material model of the workpiece, using Johnson-Cook shear failure of the law as part of the failure criteria, using coupled plane strain thermal units and hybrid adaptive grid technology to mesh, the friction between the tool and workpiece take the amendment Coulomb's law that combine with the sliding friction areas and areas of the adhesive friction, to the micro-milling by nonlinear and elastic-plastic finite element simulation. Through finite element analysis, the ratio of minimum radius of thickness to the cutting edge tool radius under different conditions of cutting speed and cutter blade was got, the size effect, stress field and cutting force under different cutting depth was got, and comparing and analysis the results, getting the various factors impact on the size effect of micro-milling, it provide a basis for the actual processing.",

keywords = "Finite element method, Micro-milling, Minimum chip thickness, Size effect",

author = "Xuemei Yu and Yazhou Sun and Haitao Liu",

year = "2009",

doi = "10.4028/www.scientific.net/AMM.16-19.1159",

language = "英语",

isbn = "0878492992",

series = "Applied Mechanics and Materials",

pages = "1159--1163",

booktitle = "e-Engineering and Digital Enterprise Technology VII",

note = "7th International Conference on e-Engineering and Digital Enterprise Technology ; Conference date: 03-09-2009 Through 05-09-2009",

}

Yu, X, Sun, Y & Liu, H 2009, Finite element simulation and analysis of size effect in micro-milling process. in e-Engineering and Digital Enterprise Technology VII. Applied Mechanics and Materials, vol. 16-19, pp. 1159-1163, 7th International Conference on e-Engineering and Digital Enterprise Technology, Shenyang, China, 3/09/09. https://doi.org/10.4028/www.scientific.net/AMM.16-19.1159

TY - GEN

T1 - Finite element simulation and analysis of size effect in micro-milling process

AU - Yu, Xuemei

AU - Sun, Yazhou

AU - Liu, Haitao

PY - 2009

Y1 - 2009

N2 - In order to determine the minimum thickness of cutting under different cutting condition of aluminum alloy materials 2A12 of micro-milling, research the size effect caused by the cutting edge radius and few microns per tooth in micro-milling process. Using thermal coupling model of Johnson-Cook as a material model of the workpiece, using Johnson-Cook shear failure of the law as part of the failure criteria, using coupled plane strain thermal units and hybrid adaptive grid technology to mesh, the friction between the tool and workpiece take the amendment Coulomb's law that combine with the sliding friction areas and areas of the adhesive friction, to the micro-milling by nonlinear and elastic-plastic finite element simulation. Through finite element analysis, the ratio of minimum radius of thickness to the cutting edge tool radius under different conditions of cutting speed and cutter blade was got, the size effect, stress field and cutting force under different cutting depth was got, and comparing and analysis the results, getting the various factors impact on the size effect of micro-milling, it provide a basis for the actual processing.

AB - In order to determine the minimum thickness of cutting under different cutting condition of aluminum alloy materials 2A12 of micro-milling, research the size effect caused by the cutting edge radius and few microns per tooth in micro-milling process. Using thermal coupling model of Johnson-Cook as a material model of the workpiece, using Johnson-Cook shear failure of the law as part of the failure criteria, using coupled plane strain thermal units and hybrid adaptive grid technology to mesh, the friction between the tool and workpiece take the amendment Coulomb's law that combine with the sliding friction areas and areas of the adhesive friction, to the micro-milling by nonlinear and elastic-plastic finite element simulation. Through finite element analysis, the ratio of minimum radius of thickness to the cutting edge tool radius under different conditions of cutting speed and cutter blade was got, the size effect, stress field and cutting force under different cutting depth was got, and comparing and analysis the results, getting the various factors impact on the size effect of micro-milling, it provide a basis for the actual processing.

KW - Finite element method

KW - Micro-milling

KW - Minimum chip thickness

KW - Size effect

UR - https://www.scopus.com/pages/publications/73949127245

U2 - 10.4028/www.scientific.net/AMM.16-19.1159

DO - 10.4028/www.scientific.net/AMM.16-19.1159

M3 - 会议稿件

AN - SCOPUS:73949127245

SN - 0878492992

SN - 9780878492992

T3 - Applied Mechanics and Materials

SP - 1159

EP - 1163

BT - e-Engineering and Digital Enterprise Technology VII

T2 - 7th International Conference on e-Engineering and Digital Enterprise Technology

Y2 - 3 September 2009 through 5 September 2009

ER -

Finite element simulation and analysis of size effect in micro-milling process

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Keywords

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