A NEW FINITE ELEMENT APPROACH WITHOUT CHIP FORMATION TO PREDICT RESIDUAL STRESS PROFILE PATTERNS IN METAL CUTTING

被引:0
|
作者
Anurag, S. [1 ]
Guo, Y. B. [1 ]
Liu, Z. Q.
机构
[1] Univ Alabama, Dept Mech Engn, Tuscaloosa, AL 35487 USA
来源
PROCEEDINGS OF THE ASME INTERNATIONAL MANUFACTURING SCIENCE AND ENGINEERING CONFERENCE, VOL 1 | 2009年
关键词
Residual stress profile; plowed depth; size effect; finite element modeling; metal cutting; SURFACE;
D O I
暂无
中图分类号
R318 [生物医学工程];
学科分类号
0831 ;
摘要
Residual stress prediction in hard turning has been recognized as one of the most important and challenging tasks. A hybrid finite element predictive model has been developed with the concept of plowed depth to predict residual stress profiles in hard turning. With the thermo-mechanical work material properties, residual stress has been predicted by simulating the dynamic turning process followed by a quasistatic stress relaxation process. The residual stress profiles were predicted for a series of plowed depths potentially encountered in machining. The predicted residual stress profiles agree with the experimental one in general. A transition of residual stress profile has been recovered at the critical plowed depth. In addition, the effects of cutting speed, friction coefficient and inelastic heat coefficient on residual stress profiles have also been studied and explained.
引用
收藏
页码:419 / 426
页数:8
相关论文
共 50 条
  • [1] Simulation of chip formation in orthogonal metal cutting process: An ALE finite element approach
    Movahhedy, MR
    Gadala, MS
    Altintas, Y
    MACHINING SCIENCE AND TECHNOLOGY, 2000, 4 (01) : 15 - 42
  • [2] A finite element simulation of the chip formation in orthogonal metal cutting
    Madrigal, MR
    Batalha, GF
    de Aguiar, JB
    METAL FORMING 2000, 2000, : 197 - 202
  • [3] Finite element simulation of chip formation in orthogonal metal cutting
    Mamalis, AG
    Horváth, M
    Branis, AS
    Manolakos, DE
    JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 2001, 110 (01) : 19 - 27
  • [4] Finite element analysis of chip formation in grooved tool metal cutting
    McClain, B
    Thean, W
    Maldonado, GI
    Fang, XD
    MACHINING SCIENCE AND TECHNOLOGY, 2000, 4 (02) : 305 - 316
  • [5] Finite element modeling of residual stress profile patterns in hard turning
    Guo, Y. B.
    Anurag, S.
    POWDER DIFFRACTION, 2009, 24 (02) : S22 - S25
  • [6] Mechanically and thermally coupled finite element analysis of chip formation in metal cutting
    Oh, JD
    Warnecke, G
    TRANSACTIONS OF THE NORTH AMERICAN MANUFACTURING RESEARCH INSTITUTE OF SME, VOL XXVIII, 2000, 2000, : 167 - 172
  • [7] The finite element analysis approach in metal cutting
    Technical University Cluj Napoca, North University, Center Baia Mare, Dr. V. Babeş 62/A, Baia Mare
    430083, Romania
    Acad. J. Manuf. Eng., 1 (12-17):
  • [8] Continuous chip formation in metal cutting processes using the Particle Finite Element Method (PFEM)
    Rodriguez, J. M.
    Carbonell, J. M.
    Cante, J. C.
    Oliver, J.
    INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES, 2017, 120 : 81 - 102
  • [9] Finite element modeling of burr formation in metal cutting
    Min, S
    Dornfeld, DA
    Kim, J
    Shyu, B
    MACHINING SCIENCE AND TECHNOLOGY, 2001, 5 (03) : 307 - 322
  • [10] FINITE ELEMENT MODELING OF DISCONTINUOUS CHIP FORMATION DURING ROCK CUTTING
    Menezes, Pradeep L.
    Lovell, Michael R.
    Lin, Jeen-Shang
    Higgs, C. Fred, III
    PROCEEDINGS OF THE ASME/STLE INTERNATIONAL JOINT TRIBOLOGY CONFERENCE - 2009, 2010, : 463 - 465
12345