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Characterisation of the quasi-static flow and fracture behaviour of dual-phase steel sheets in a wide range of plane stress states

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
An approach to characterise the flow and fracture behaviour with the help of a modified Miyauchi shear test, a uniaxial tensile test on standard, holed, waisted specimens as well as a hydraulic bulge test is presented. The modification of the Miyauchi specimen is related to the geometry of the shear zones. The new geometry helps suppress plastic strain concentration at the edges and increase deformation in the material interior, which allows for accurate fracture characterisation. With the help of the experimental and numerical tests analyses, the flow behaviour and equivalent plastic strain at fracture were estimated for two common cold-rolled dual-phase steels in a wide range of plane stress states. With the obtained data, the applicability of the phenomenological Johnson–Cook fracture model to describe the fracture behaviour of this material type is questioned and a need for a more extensive fracture behaviour characterisation and advanced modelling is shown.
Rocznik
Strony
397--406
Opis fizyczny
Bibliogr. 26 poz., rys., tab., wykr.
Twórcy
  • Leibniz Universitat Hannover, Institute of Forming Technology and Machines, Ander Universitat 2, 30823 Garbsen, Germany
autor
  • Leibniz Universitat Hannover, Institute of Forming Technology and Machines, Ander Universitat 2, 30823 Garbsen, Germany
autor
  • Leibniz Universitat Hannover, Institute of Forming Technology and Machines, Ander Universitat 2, 30823 Garbsen, Germany
  • Leibniz Universitat Hannover, Institute of Forming Technology and Machines, Ander Universitat 2, 30823 Garbsen, Germany
Bibliografia
  • [1] D. Banabic, Sheet Metal Forming Processes. Constitutive Modelling and Numerical Simulation, Springer, 2010.
  • [2] K. Roll, Simulation of sheet metal forming necessary developments in the future, in: Proceedings of the Numisheet Conference, 2008.
  • [3] T. Wierzbicki, Y. Bao, Y.-W. Lee, Y. Bai, Calibration and evaluation of seven fracture models, International Journal of Mechanical Sciences (2005) 719–743 47.
  • [4] T. Wierzbicki, Fracture of advanced high-strength steels, Technical Proposal to the New Research Program at the Impact and Crashworthiness Lab, MIT, Boston, USA, 2006.
  • [5] S.P. Keeler, Plastic Instability and Fracture in Sheets Stretched over Rigid Punches, Ph.D. Thesis, MIT, Boston, USA, 1961.
  • [6] G.M. Goodwin, Application of strain analysis to sheet metal forming problems in the press shop, Society of Automotive Engineers 6800 (93) (1968) 380–387.
  • [7] M.F. Shi, S. Gelisse, Issues on the AHSS forming limit determination, in: Proceedings of the of IDDRG Conference, 2006.
  • [8] A.G. Atkins, in: H.P. Rosmanith (Ed.), Fracture Research in Retrospect, An Anniversary Volume in Honour of G.R. Inrwin’s Birthday, A.A. Balkema, 1997, pp. 327–350.
  • [9] J. Besson, Continuum models of ductile fracture: a review, International Journal of Damage Mechanics 19 (2010) 3–52.
  • [10] V. Tvergaard, A. Needleman, in: J. Lemaitre (Ed.), Handbook of Materials Behaviour Models, Academic Press, 2001, pp. 430–435.
  • [11] G. Bernauer, W. Brocks, U. Muehlich, D. Steglich, M. Werwer, A Notice on Application of the GTN Model (in German), Technical Not GKSS/WMG/99/10 GKSS, Germany.
  • [12] H. Ebelsheiser, M. Feucht, F. Neukamm, On calibrating advanced damage models using sheet metal coupon test, in: Proceedings of the LS-Dyna Forum Conference, 2008.
  • [13] F. Neukamm, M. Feucht, A. Haufe, Consistent damage modelling in the process chain of forming to crashworthiness simulations, in: Proceedings of the LS-Dyna Forum Conference, 2008.
  • [14] Y. Bao, T. Wierzbicki, A comparative study on various ductile crack formation criteria, Transactions of the ASME 126 (2004) 314–324.
  • [15] G.R. Johnson, W.H. Cook, Fracture characteristics of three metals subjected to various strains, strain rates, temperatures, and pressures, Engineering Fracture Mechanics 21 (1985) 31–48.
  • [16] C Poizat, L Campagne, L Daridon, S Ahzi, C Husson, L Merle, Modelling and simulation of blanking using damage and rupture criteria, International Journal of Forming Processes 8 (2005) 29–47.
  • [17] H. Huh, W.J. Kang, Crashworthiness assessment of thin-walled structures with the high-strength steel sheet, International Journal of Vehicle Design 30 (2002) 1–21.
  • [18] S. Keller, W. Hotz, H. Friebe, M. Klein, Experimental procedure in yield curve determination using the bulge test combined with optical measurement, in: Proceedings of the IDDRG Conference, 2009.
  • [19] B.-A. Behrens, A. Bouguecha, M. Vucetic, I. Peshekhodov, Determination of the Johnson–Cook fracture model parameters for sheet metal based on the uniaxial tensile test, bulge test, and a modified Miyauchi shear test, in: Proceedings of the ICTP Conference, 2011.
  • [20] K. Miyauchi, A proposal for a planar simple shear test in sheet metals, Scientific Papers RIKEN 81 (1984) 27–42.
  • [21] M. Liewald, C. Held, R. Schleich, Characterisation of sheet metal formability a review and new approaches, Steel Research International 80 (2009) 275–280.
  • [22] M. Luo, T. Wierzbicki, Numerical failure analysis of a stretch-bending test on DP sheets using a phenomenological fracture model, International Journal of Solids and Structures 47 (2010) 3084–3102.
  • [23] M. Sigvant, K. Mattiason, H. Vegter, P. Thilderkvist, A viscous pressure bulge test for the determination of a plastic hardening curve and equibiaxial material data, International Journal of Material Forming 2 (2009) 235–242.
  • [24] M. Vucetic, A. Bouguecha, I. Peshekhodov, T. Gotze, T. Huinink, H. Friebe, T. Moeller, B.-A. Behrens, Numerical validation of the analytical biaxial true stress–true strain curves from the bulge test, in: Proceedings of the Numisheet Conference, 2011.
  • [25] M.-S. Aydin, J. Gerlach, L. Kessler, Approach to extrapolate flow curves from the tensile test beyond the uniform elongation (in German), in: Proceedings of the LS-Dyna Forum Conference, 2009.
  • [26] C.L. Walters, Development of a Punching Technique for Ductile Fracture Testing over a Wide Range of Stress States and Strain Rates, Ph.D. Thesis, MIT, Boston, USA, 2009.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-4788f143-4025-474e-9f83-50e1ea9a6973
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