Issue 29

M. Marino, Frattura ed Integrità Strutturale, 29 (2014) 96-110; DOI: 10.3221/IGF-ESIS.29.10 110 [6] Churchill, C.B., Shaw, J.A., Iadicola, M.A., Tips and tricks for characterizing shape memory alloy wire: part 4 - Thermo-mechanical coupling, Experimental techniques, 34 (2010) 63-80. [7] Khandelwal, A., Buravalla, V., Models for shape memory alloy behavior: an overview of modeling approaches. International Journal of Structural Changes in Solids, 1 (2009) 111-148. [8] Coleman B.D., M.E. Gurtin, Thermodynamics with internal state variables. Department of Mathematical Sciences. Mellon College of Science, (1967) 1-72. [9] Bouvet, C., Calloch, S., Lexcellent C., A phenomenological model for pseudoelasticity of shape memory alloys under multiaxial proportional and nonproportional loadings, European Journal of Mechanics A/Solids, 23 (2004) 37--61. [10] Evangelista, V., Marfia, S., Sacco, E., A 3D sma constitutive model in the framework of finite strain. International Journal for Numerical Methods in Engineering, 81 (2010) 761-785. [11] Leclercq, S., Lexcellent, C., A general macroscopic description of the thermomechanical behavior of shape memory alloys. Journal of the Mechanics and Physics of Solids, 44 (1996) 953-980. [12] Nguyen, Q.S., Moumni, Z., Sur une modélisation du changement de phases solides, Comptes Rendus de l'Académie des Sciences. Series II, 321 (1995) 87-92. [13] Halphen B., Nguyen, Q.S., Sur les matériaux standard généralisés, Journal de Mécanique, 14 (1975) 39-63. [14] Lagoudas, D., Hartl, D., Chemisky, Y., Machado, L., Popov, P., Constitutive model for the numerical analysis of phase transformation in polycrystalline shape memory alloys, International Journal of Plasticity, 32-33 (2012) 155- 183. [15] Moreau, J.J., Sur les lois de frottement, de viscosité et de plasticité. Comptes Rendus de l'Académie des Sciences, 271 (1970) 608-611. [16] Frémond, M., Phase Change in Mechanics. Lecture Notes of the Unione Matematica Italiana. Springer-Verlag, Berlin-Heidelberg, (2012). [17] Frémond, M., Non-smooth thermomechanics. Springer-Verlag, Berlin, (2002). [18] Baêta-Neves, A.P., Savi, M.A., Pacheco, P.M.C.L., On the Fremond's constitutive model for shape memory alloys. Mechanics Research Communication, 31 (2004) 677-688. [19] Savi, M.A., Paiva, A., Baêta-Neves, A.P., Pacheco, P.M.C.L., Phenomenological modeling and numerical simulation of shape memory alloys: A thermo-plastic-phase transformation coupled model, Journal of Intelligent Material Systems and Structures, 13 (2002) 261-273. [20] Pagano, S., Alart, P., Maisonneuve, O., Solid-solid phase transition modelling. Local and global minimizations of non- convex and relaxed potentials. Isothermal case for shape memory alloys, International Journal of Engineering Science, 36 (1998) 1143-1172. [21] Zaki, W., Moumni, Z., A three-dimensional model of the thermomechanical behavior of shape memory alloys, Journal of the Mechanics and Physics of Solids, 55 (2007) 2455-2490. [22] Ahlers, M., The martensitic transformation, Revista Matéria, 9 (2004) 169-183.