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Mechanics of Advanced Materials and Structures Volume 13, 2006 - Issue 6
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Original Articles

Finite Element Analysis of Phase Transformation Dynamics in Shape Memory Alloys with a Consistent Landau-Ginzburg Free Energy Model

D. Roy Mahapatra Mathematical Modelling and Computational Sciences, Wilfrid Laurier University, Waterloo, ON, N2L3C5, Canada
&
R. V. N. Melnik Mathematical Modelling and Computational Sciences, Wilfrid Laurier University, Waterloo, ON, N2L3C5, Canada
Pages 443-455 | Received 26 Apr 2006, Published online: 24 Feb 2007

REFERENCES

  • Boyd , J. G. and Lagoudas , D. C. 1996 . “A thermodynamical constitutive constitutive model for shape memory materials. Part I. the monolithic shape memory alloy” . Int. J. Plasticity , 12 ( 6 ) : 805 – 842 . [CSA]
  • Goo , R. C. and Lexcellent , C. 1997 . “Micromechanics-based modeling of two-way memory effect of a single crystalline shape-memory alloy” . Acta Mater. , 45 : 727 – 737 . [CROSSREF] [CSA]
  • Brocca , M. , Brinson , L. C. and Bazant , Z. P. 2002 . “Three-dimensional constitutive shape memory alloys based on microplane model” . J. Mech. Phys. Solids , 50 : 1051 – 1077 . [CROSSREF] [CSA]
  • Siredey , N. , Patoor , E. , Bervellier , M. and Aberhardt , E. 1999 . “Constitutive equations for polycrystalline thermoelastic shape memory alloys. Part I. Intragranular interactions and behavior of the grain” . Int. J. Solids Struct. , 36 : 4289 – 4315 . [CROSSREF] [CSA]
  • Ball , J. M. and Cartensen , C. 1999 . “Compatibility conditions for microstructures and the austenite-martensite transition” . Mater. Sci. Engng. A , 273 : 231 – 236 . [CROSSREF] [CSA]
  • Bhattacharya , K. 2003 . Microstructure of Martensite , Oxford University Press .
  • James , R. D. and Hane , K. F. 2000 . “Martensitic transformations and shape memory materials” . Acta Materialia , 48 : 197 – 222 . [CROSSREF] [CSA]
  • Zhu , J. J. and Lew , K. M. 2004 . “Describing the Morphology of 2H Martensite Using Group Theory Part 1: Theory” . Mech. Advanced Mater. Struct. , 11 ( 3 ) : 197 – 225 . [CROSSREF] [CSA]
  • Abeyaratne , R. , Chu , C. and James , R. D. 1996 . “Kinetics of materials with wiggly energies: The evolution of twinning microstructure in a Cu-Al-Ni shape memory alloys” . Phil. Mag. , 73A : 457 – 496 . [CSA]
  • Artemev , A. , Wang , Y. and Khachaturyan , A. G. 2000 . “Three-dimensional phase field model and simulation of martensitic transformation in multilayer systems under applied stresses” . Acta Mater. , 48 : 2503 – 2518 . [CROSSREF] [CSA]
  • Ichitsubo , T. , Tanaka , K. , Koiwa , M. and Yamazaki , Y. 2000 . “Kinetics of cubic to tetragonal transformation under external field by the time-dependent Ginzburg-Landau approach” . Phy. Rev. B , 62 : 5435 [CROSSREF] [CSA]
  • Niclaeys , C. , Zineb , T. B. , Chirani , S. A. and Patoor , E. 2002 . “Determination of the interaction energy in the martensitic state” . Int. J. Plasticity , 18 : 1619 – 1647 . [CROSSREF] [CSA]
  • Carstensen , C. 2005 . “Ten remarks on nonconvex minimization for phase transition simulations” . Comput. Methods. Appl. Mech. Engng. , 194 : 169 – 193 . [CROSSREF] [CSA]
  • Ván , P. 2005 . “The Ginzburg-Landau equation as a consequence of the second law” . Continuum Mech. Thermodyn. , 17 : 165 – 169 . [CROSSREF] [CSA]
  • Falk , F. and Kanopka , P. 1990 . “Three-dimensional Landau theory describing the martensitic phase transformation of shape-memory alloys” . J. Phys.: Condens. Matter , 2 : 61 – 77 . [CROSSREF] [CSA]
  • Levitas , V. I. and Preston , D. L. 2002 . “Three-dimensional Landau theory for multivariant stress-induced martensitic phase transformations. I. Austenite ↔ martensite” . Phys. Rev. B , 66 : 134206 [CROSSREF] [CSA]
  • Levitas , V. I. and Preston , D. L. 2002 . “Three-dimensional Landau theory for multivariant stress-induced martensitic phase transformations. II. Multivariant phase transformations and stress space analysis” . Phys. Rev. B , 66 : 134207 [CROSSREF] [CSA]
  • Levitas , V. I. , Preston , D. L. and Lee , D. W. 2003 . “Three-dimensional Landau theory for multivariant stress-induced martensitic phase transformations. III. Alternative potentials, critical nuclei, kink solutions, and dislocation theory” . Phys. Rev. B , 68 : 134201 [CROSSREF] [CSA]
  • Mahapatra , D. R. and Melnik , R. V. N. 2005 . “A dynamic model for phase transformations in 3D samples of shape memory alloys” , Vol. 3516 , 25 – 32 . Springer-Verlag . Lect. Notes Compu. Sci.
  • Wu , X. , Grummon , D. S. and Pence , T. J. 1999 . “Modeling phase fraction shakedown during thermomechanical cycling of shape memory materials” . Mater. Sci. Engng. A , 273–275 : 245 – 250 . [CROSSREF] [CSA]
  • Roy Mahapatra , D. and Melnik , R. V. N. 2006 . “Finite element approach to modelling evolution of 3D shape memory materials” . Math. Computers Simul. , July (in press)[CSA]
  • Li , B. and Luskin , M. 1998 . “Finite element analysis of microstructure for the cubic to tetragonal transformation” . SIAM J. Numer. Anal. , 35 : 376 – 392 . [CROSSREF] [CSA]
  • Matus , P. , Melnik , R. V. N. , Wang , L. and Rybak , I. 2004 . “Application of fully conservative schemes in nonlinear thermoelasticity: modelling shape memory materials” . Math. Computers Simul. , 65 : 489 – 510 . [CROSSREF] [CSA]
  • Fu , S. , Huo , S. Y. and Muller , I. 1991 . “Thermodynamics of pseudoelasticity—an analytical approach” . Acta Mechanica , 99 : 1 – 19 . [CROSSREF] [CSA]
  • Simo , J. C. and Hughes , T. J. R. 1997 . Computational Inelasticity , Springer-Verlag .

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