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access icon openaccess Constitutive model of shape memory alloy under the effect of martensite plasticity for finite-element applications

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      • 2. Auricchio, F., Aylor, R.L.: ‘Shape-memory alloy modeling and numerical simulations of the finite-strain superelastic behavior’, Comput. Meth. Appl. Mech. Eng., 1997, 143, pp. 175194.
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      • 5. Saint-Sulpice, L., Chirani, S.A., Calloch, S.: ‘A 3D superelastic model for shape memory alloys taking into account progressive strain under cyclic loadings’, Mech. Mater., 2009, 41, pp. 1226.
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      • 7. Liang, C., Rogers, C.: ‘One-dimensional thermomechanical constitutive relations for shape memory materials’, J. Intell Mater. Syst Struct., 1990, 1, pp. 207234.
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      • 8. Auricchio, F., Sacco, E.: ‘A one-dimensional model for superelastic shape memory alloys with different elastic properties between austenite and martensite’, Int. J Nonlinear. Mech., 1997, 32, pp. 11011114.
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      • 9. Jiang, X.J., Li, B.T.: ‘Finite element analysis of a superelastic shape memory alloy considering the effect of plasticity’, J. Theor. Appl. Mech., 2017, 55, (4), pp. 13551368.
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      • 10. Kang, G.Z., Kan, Q.H., Qian, L.M., et al: ‘Ratchetting deformation of super-elastic and shape-memory NiTi alloys’, Mech. Mater., 2009, 41, pp. 139153.
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