New convex yield functions for orthotropic metal plasticity

Abstract Two new yield functions for orthotropic sheet metals are proposed. The first one, called Yld2011-18p, provides 18 parameters that may be calibrated to experimental data. The second one, called Yld2011-27p, is a straightforward extension and provides 27 parameters. Both yield functions are unconditionally convex. Their formulations are based on the established concept of multiple linear transformations of the stress deviator. Furthermore, they are able to account for planar as well as for three-dimensional stress states. The proposed yield functions are applied to describe complex plastic anisotropies of different alloys. The ability of accurately predicting earing in cup-drawing is demonstrated by means of a non-linear finite element analysis.

[1]  A less hypothetical perspective on rate-independent continuum theory of metal plasticity , 2006 .

[2]  Frédéric Barlat,et al.  Plastic behavior and stretchability of sheet metals. Part I: A yield function for orthotropic sheets under plane stress conditions , 1989 .

[3]  Weilong Hu,et al.  An orthotropic yield criterion in a 3-D general stress state , 2005 .

[4]  J. Yoon,et al.  Effect of anisotropic yield functions on the accuracy of hole expansion simulations , 2011 .

[5]  H. Aretz A consistent plasticity theory of incompressible and hydrostatic pressure sensitive metals – II , 2007 .

[6]  M. Gurtin,et al.  The Mechanics and Thermodynamics of Continua , 2010 .

[7]  R. Hill The mathematical theory of plasticity , 1950 .

[8]  Dorel Banabic,et al.  Sheet Metal Forming Processes: Constitutive Modelling and Numerical Simulation , 2010 .

[9]  R. H. Wagoner,et al.  Anisotropic yield functions with plastic-strain-induced anisotropy , 1996 .

[10]  H. Aretz A simple isotropic-distortional hardening model and its application in elastic-plastic analysis of localized necking in orthotropic sheet metals , 2008 .

[11]  R. Ogden Non-Linear Elastic Deformations , 1984 .

[12]  Jeong Whan Yoon,et al.  A non-associated constitutive model with mixed iso-kinematic hardening for finite element simulation of sheet metal forming , 2010 .

[13]  R. Hill Constitutive modelling of orthotropic plasticity in sheet metals , 1990 .

[14]  O. Richmond,et al.  Pressure Dependence of Yielding and Associated Volume Expansion in Tempered Martensite. , 1975 .

[15]  L. E. Malvern Introduction to the mechanics of a continuous medium , 1969 .

[16]  L. Kachanov,et al.  Fundamentals of the Theory of Plasticity , 1974 .

[17]  Kwansoo Chung,et al.  Non-associated flow rule with symmetric stiffness modulus for isotropic-kinematic hardening and its application for earing in circular cup drawing , 2012 .

[18]  Frédéric Barlat,et al.  Description of anisotropic behaviour of AA3103-0 aluminium alloy using two recent yield criteria , 2003 .

[19]  Frédéric Barlat,et al.  Orthotropic yield criteria for description of the anisotropy in tension and compression of sheet metals , 2008 .

[20]  Toshihiko Kuwabara,et al.  Measurement and analysis of differential work hardening in cold-rolled steel sheet under biaxial tension , 1998 .

[21]  R. E. Dick,et al.  Plane stress yield functions for aluminum alloy sheets , 2002 .

[22]  A. H. van den Boogaard,et al.  A plane stress yield function for anisotropic sheet material by interpolation of biaxial stress states , 2006 .

[23]  R. Hill A theory of the yielding and plastic flow of anisotropic metals , 1948, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[24]  Ricardo A. Lebensohn,et al.  A self-consistent anisotropic approach for the simulation of plastic deformation and texture development of polycrystals : application to zirconium alloys , 1993 .

[25]  W. Hosford The mechanics of crystals and textured polycrystals , 1993 .

[26]  Frédéric Barlat,et al.  Orthotropic yield criterion for hexagonal closed packed metals , 2006 .

[27]  M. Gotoh A theory of plastic anisotropy based on a yield function of fourth order (plane stress state)—I , 1977 .

[28]  F. Barlat,et al.  A six-component yield function for anisotropic materials , 1991 .

[29]  Frédéric Barlat,et al.  Prediction of six or eight ears in a drawn cup based on a new anisotropic yield function , 2006 .

[30]  Robert J. Asaro,et al.  Mechanics of Solids and Materials , 2006 .

[31]  O. Richmond,et al.  The effect of pressure on the flow stress of metals , 1984 .

[32]  Viggo Tvergaard,et al.  Use of abrupt strain path change for determining subsequent yield surface: experimental study with metal sheets , 2000 .

[33]  F. Barlat,et al.  General Orthotropic Yield Functions Based on Linear Stress Deviator Transformations , 2004 .

[34]  Frédéric Barlat,et al.  Application of the theory of representation to describe yielding of anisotropic aluminum alloys , 2003 .

[35]  William H. Press,et al.  Numerical Recipes: FORTRAN , 1988 .

[36]  A. Leacock A mathematical description of orthotropy in sheet metals , 2006 .

[37]  F. Barlat,et al.  Prediction of tricomponent plane stress yield surfaces and associated flow and failure behavior of strongly textured f.c.c. polycrystalline sheets , 1987 .

[38]  Željan Lozina,et al.  A finite element formulation based on non-associated plasticity for sheet metal forming , 2008 .

[39]  Frédéric Barlat,et al.  Generalization of Drucker's Yield Criterion to Orthotropy , 2001 .

[40]  F. Barlat,et al.  Yield function development for aluminum alloy sheets , 1997 .

[41]  O. Engler,et al.  Texture-based design of a convoluted cut-edge for earing-free beverage cans , 2011 .

[42]  Dorel Banabic,et al.  An improved analytical description of orthotropy in metallic sheets , 2005 .

[43]  Akhtar S. Khan,et al.  Continuum theory of plasticity , 1995 .

[44]  Kengo Yoshida,et al.  Anisotropic plastic deformation of extruded aluminum alloy tube under axial forces and internal pressure , 2004 .

[45]  O. Engler,et al.  Analysis of Earing in Deep Drawn Cups , 2010 .

[46]  W. Hosford A Generalized Isotropic Yield Criterion , 1972 .

[47]  H. Aretz,et al.  An extension of Hill’s localized necking model , 2010 .

[48]  Z. Tourki,et al.  Sheet metal forming simulations using a new model for orthotropic plasticity , 1996 .

[49]  W. Hosford,et al.  Metal Forming: Mechanics and Metallurgy , 1993 .

[50]  Klaus Pöhlandt,et al.  Formability of Metallic Materials , 2000 .

[51]  Frédéric Barlat,et al.  Linear transfomation-based anisotropic yield functions , 2005 .

[52]  H. Aretz An Advanced Numerical Differentiation Scheme for Plastic Strain‐Rate Computation , 2007 .

[53]  William F. Hosford,et al.  On the Crystallographic Basis of Yield Criteria , 1996 .

[54]  Toshihiko Kuwabara,et al.  Advances in experiments on metal sheets and tubes in support of constitutive modeling and forming simulations , 2007 .

[55]  Han Huetink,et al.  Characterisation and modelling of the plastic material behaviour and its application in sheet metal forming simulation , 2003 .

[56]  Frédéric Barlat,et al.  On linear transformations of stress tensors for the description of plastic anisotropy , 2007 .

[57]  A. P. Karafillis,et al.  A general anisotropic yield criterion using bounds and a transformation weighting tensor , 1993 .

[58]  H. Aretz,et al.  Applications of a new plane stress yield function to orthotropic steel and aluminium sheet metals , 2004 .

[59]  Jeong Whan Yoon,et al.  Anisotropic hardening and non-associated flow in proportional loading of sheet metals , 2009 .

[60]  R. Hill Theoretical plasticity of textured aggregates , 1979, Mathematical Proceedings of the Cambridge Philosophical Society.

[61]  H. Aretz,et al.  Numerical analysis of diffuse and localized necking in orthotropic sheet metals , 2007 .

[62]  F. Barlat,et al.  Plane stress yield function for aluminum alloy sheets—part 1: theory , 2003 .

[63]  J. Ding,et al.  A modified form of Hill's orientationdashdependent yield criterion for orthotropic sheet metals , 1996 .

[64]  Constitutive modelling of ferritic stainless steel sheets , 2009 .

[65]  R. Hill,et al.  A user-friendly theory of orthotropic plasticity in sheet metals , 1993 .

[66]  Y. An,et al.  A novel yield locus description by combining the Taylor and the relaxed Taylor theory for sheet steels , 2011 .

[67]  F. Barlat,et al.  Anisotropic potentials for plastically deforming metals , 1993 .

[68]  Richard Von Mises,et al.  Mechanik der plastischen Formänderung von Kristallen , 1928 .

[69]  Jacques Besson,et al.  A yield function for anisotropic materials Application to aluminum alloys , 2004 .

[70]  Y. An,et al.  A novel and simple method for the measurement of plane strain work hardening , 2004 .