References
- S.R. Agnew and O. Duygulu , Plastic anisotropy and the role of non-basal slip in magnesium alloy AZ31B , Int. J. Plast. 21 (2005), pp. 1161–1193.
- S.R. Agnew , J.A. Horton , T.M. Lillo , and D.W. Brown , Enhanced ductility in strongly textured magnesium produced by equal channel angular processing , Scr. Mater. 50 (2004), pp. 377–381.
- S.R. Agnew , M.H. Yoo , and C.N. Tome , Application of texture simulation to understanding mechanical behavior of Mg and solid solution alloys containing Li or Y , Acta Mater. 49 (2001), pp. 4277–4289.
- S. Ahzi and S. M’Guil , A new intermediate model for polycrystalline viscoplastic deformation and texture evolution , Acta Mater. 56 (2008), pp. 5359–5369.
- M. Al-Maharbi , I. Karaman , I.J. Beyerlein , D. Foley , K.T. Hartwig , L.J. Kecskes , and S.N. Mathaudhu , Microstructure, crystallographic texture, and plastic anisotropy evolution in an Mg alloy during equal channel angular extrusion processing , Mater. Sci. Eng. A 528 (2011), pp. 7616–7627.
- M.F. Ashby , A first report on deformation-mechanism maps , Acta Metall. 20 (1972), pp. 887–897.
- M. Avedesian and H. Baker , Magnesium and magnesium alloys , in ASM Specialty Handbook , ASM International, Materials Park, OH, 1999.
- F. Bachmann , R. Hielscher , and H. Schaeben , Texture analysis with MTEX-Free and open source software toolbox , Solid State Phenom. 160 (2010), pp. 63–68.
- F. Barlat and K. Lian , Plastic behavior and stretchability of sheet metals. Part I: A yield function for orthotropic sheets under plane stress conditions , Int. J. Plast. 5 (1989), pp. 51–66.
- M.R. Barnett , Twinning and the ductility of magnesium alloys: Part I: “tension” twins , Mater. Sci. Eng. A 464 (2007), pp. 1–7.
- M.R. Barnett , Z. Keshavarz , A.G. Beer , and X. Ma , Non-Schmid behaviour during secondary twinning in a polycrystalline magnesium alloy , Acta Mater. 56 (2008), pp. 5–15.
- M.R. Barnett , Z. Keshavarz , and X. Ma , A semianalytical Sachs model for the flow stress of a magnesium alloy , Metall. Mater. Trans. A 37 (2006), pp. 2283–2293.
- C.A. Bronkhorst , S.R. Kalidindi , and L. Anand , Polycrystalline plasticity and the evolution of crystallographic texture in FCC metals , Philos. Trans. R. Soc. London, Ser. A: Phys. Sci. Eng. 341 (1992), pp. 443–477.
- D.W. Brown , S.R. Agnew , M.A. Bourke , T.M. Holden , S.C. Vogel , and C.N. Tomé , Internal strain and texture evolution during deformation twinning in magnesium , Mater. Sci. Eng. A 399 (2005), pp. 1–12.
- C.H. Cáceres and P. Lukáč , Strain hardening behaviour and the Taylor factor of pure magnesium , Philos. Mag. 88 (2008), pp. 977–989.
- C.H. Cáceres , P. Lukáč , and A. Blake , Strain hardening due to {10ˉ12} twinning in pure magnesium , Philos. Mag. 88 (2008), pp. 991–1003.
- O. Cazacu and F. Barlat , A criterion for description of anisotropy and yield differential effects in pressure-insensitive metals , Int. J. Plast. 20 (2004), pp. 2027–2045.
- G.Y. Chin and W.L. Mammel , Computer simulations of the Taylor analysis for axisymmetric flow , In Transactions of the metallurgical society of AIME , American Institute of Mining, Metallurgical, and Petroleum Engineers, 1967, pp. 1400–1405.
- H. El Kadiri , J. Kapil , A.L. Oppedal , L.G. Hector Jr , S.R. Agnew , M. Cherkaoui , and S.C. Vogel , The effect of twin--twin interactions on the nucleation and propagation of twinning in magnesium , Acta Mater. 61 (2013), pp. 3549–3563.
- S. Godet , L. Jiang , A.A. Luo , and J.J. Jonas , Use of Schmid factors to select extension twin variants in extruded magnesium alloy tubes , Scr. Mater. 55 (2006), pp. 1055–1058.
- S. Graff , W. Brocks , and D. Steglich , Yielding of magnesium: From single crystal to polycrystalline aggregates , Int. J. Plast. 23 (2007), pp. 1957–1978.
- R. Hill , A theory of the yielding and plastic flow of anisotropic metals , Proc. R. Soc. London Ser. A: Math. Phys. Sci. 193 (1948), pp. 281–297.
- S.G. Hong , S.H. Park , and C.S. Lee , Role of {10–12} twinning characteristics in the deformation behavior of a polycrystalline magnesium alloy , Acta Mater. 58 (2010), pp. 5873–5885.
- A. Jain and S.R. Agnew , Modeling the temperature dependent effect of twinning on the behavior of magnesium alloy AZ31B sheet , Mater. Sci. Eng. A 462 (2007), pp. 29–36.
- M. Knezevic , A. Levinson , R. Harris , R.K. Mishra , R.D. Doherty , and S.R. Kalidindi , Deformation twinning in AZ31: Influence on strain hardening and texture evolution , Acta Mater. 58 (2010), pp. 6230–6242.
- S. Kurukuri , M.J. Worswick , D.G. Tari , R.K. Mishra , and J.T. Carter , Rate sensitivity and tension-compression asymmetry in AZ31B magnesium alloy sheet. Philos. Trans. R. Soc. A: Math., Phys , Eng. Sci. 372 (2014), pp. 20130216.
- X.Y. Lou , M. Li , R.K. Boger , S.R. Agnew , and R.H. Wagoner , Hardening evolution of AZ31B Mg sheet , Int. J. Plast. 23 (2007), pp. 44–86.
- H. Mecking , U.F. Kocks and C. Hartig , Taylor factors in materials with many deformation modes , Scr. Mater. 35 (1996), pp. 465–471.
- N. Ono , R. Nowak , and S. Miura , Effect of deformation temperature on Hall--Petch relationship registered for polycrystalline magnesium , Mater. Lett. 58 (2003), pp. 39–43.
- G. Sachs , Zur Ableitung einer Fliessbedingung [On the derivation of a yield condition], in Mitteilungen der deutschen Materialprüfungsanstalten [Reports of the German Material Testing Institute], Verlag Von Julius Springer, Berlin, 1929, pp. 94–97.
- A. Staroselsky and L. Anand , A constitutive model for hcp materials deforming by slip and twinning: Application to magnesium alloy AZ31B , Int. J. Plast. 19 (2003), pp. 1843–1864.
- S. Suwas , G. Gottstein , and R. Kumar , Evolution of crystallographic texture during equal channel angular extrusion (ECAE) and its effects on secondary processing of magnesium , Mater. Sci. Eng. A 471 (2007), pp. 1–14.
- G.I. Taylor , Plastic strain in metals , J. Inst. Met. 62 (1938), pp. 307–324.
- C. Tome , G.R. Canova , U.F. Kocks , N. Christodoulou , and J.J. Jonas , The relation between macroscopic and microscopic strain hardening in fcc polycrystals , Acta Metall. 32 (1984), pp. 1637–1653.
- C.N. Tomé , R.A. Lebensohn , and U.F. Kocks , A model for texture development dominated by deformation twinning: Application to zirconium alloys , Acta Metall. Mater. 39 (1991), pp. 2667–2680.
- I. Ulacia , N.V. Dudamell , F. Gálvez , S. Yi , M.T. Pérez-Prado , and I. Hurtado , Mechanical behavior and microstructural evolution of a Mg AZ31 sheet at dynamic strain rates , Acta Mater. 58 (2010), pp. 2988–2998.
- P. Van Houtte , S. Li , M. Seefeldt and L. Delannay , Deformation texture prediction: From the Taylor model to the advanced Lamel model , Int. J. Plast. 21 (2005), pp. 589–624.
- Y. Wang and H. Choo , Influence of texture on Hall--Petch relationships in an Mg alloy , Acta Mater. 81 (2014), pp. 83–97.
- J. Zhang and S.P. Joshi , Phenomenological crystal plasticity modeling and detailed micromechanical investigations of pure magnesium , J. Mech. Phys. Solids 60 (2012), pp. 945–972.