Super-elastic behavior of shape memory alloys under proportional cyclic loadings, Materials Science and Engineering : A, pp.481-482174, 2008. ,
A 3d super-elastic model for shape memory alloys taking into account progressive strain under cyclic loadings, Mechanics of Materials, vol.41, issue.1, pp.12-26, 2009. ,
Thermomechanical cyclic behavior modeling of Cu-Al-Be SMA materials and structures, International Journal of Solids and Structures, vol.49, issue.9, pp.1088-1102, 2012. ,
Thermomechanical modeling of polycrystalline SMAs under cyclic loading, Part III : evolution of plastic strains and two-way shape memory effect, International Journal of Engineering Science, vol.37, issue.9, pp.1175-1203, 1999. ,
Shape memory behaviour : modelling within continuum thermomechanics, International Journal of Solids and Structures, vol.40, issue.4, pp.827-849, 2003. ,
S : Modelling of SMA materials : Training and two way memory effects, Computers & Structures, vol.81, pp.24-252301, 2003. ,
CCCCC : Instability of cyclic superelastic deformation of NiTi investigated by synchrotron X-ray diffraction, Acta Materialia, vol.94, pp.257-270, 2015. ,
Electron microscopy study of dislocations associated with thermal cycling in a Cu-Zn-Al shape memory alloy, Acta Metallurgica et Materialia, vol.38, issue.12, pp.2733-2740, 1990. ,
In situ observation of stress-induced martensitic transformation and plastic deformation in TiNi alloy, Materials Science and Engineering : A, vol.238, issue.2, pp.303-308, 1997. ,
Neutron diffraction phase analysis during thermal cycling of a Ni-rich NiTi shape memory alloy using the Rietveld method, Scripta Materialia, vol.46, issue.7, pp.543-548, 2002. ,
D : In-Situ Synchrotron Characterization of Transformation Sequences in TiNi-Based Shape Memory Alloys during Thermal Cycling, Metallurgical and Materials Transactions A, vol.41, issue.4, pp.912-921, 2010. ,
SSSS : Transmission electron microscopy investigation of dislocation slip during superelastic cycling of Ni?Ti wires, International Journal of Plasticity, vol.27, issue.2, pp.282-297, 2011. ,
Advances in martensitic transformations in Cu-based shape memory alloys achieved by in situ neutron and synchrotron X-ray diffraction methods, Comptes Rendus Physique, vol.13, issue.3, pp.280-292, 2012. ,
OOOOOO : Effect of cyclic deformation on the pseudoelasticity characteristics of Ti-Ni alloys, Metallurgical Transactions A, vol.17, issue.1, pp.115-120, 1986. ,
W : The shape memory mechanism associated with the martensitic transformation in Ti-Ni alloys?I. Self-accommodation, Acta Metallurgica, vol.37, issue.7, pp.1873-1884, 1989. ,
W : The shape memory mechanism associated with the martensitic transformation in Ti-Ni alloys?II. Variant coalescence and shape recovery, Acta Metallurgica, vol.37, issue.7, pp.1885-1890, 1989. ,
Stress-induced transformation behavior of a polycrystalline NiTi shape memory alloy : micro and macromechanical investigations via in situ optical microscopy, Journal of the Mechanics and Physics of Solids, vol.52, issue.7, pp.1549-1571, 2004. ,
Applying infrared thermography to analyse martensitic microstructures in a Cu-Al-Be shape-memory alloy subjected to a cyclic loading, Materials Science and Engineering : A, issue.28, pp.5288249-8258, 2011. ,
Variation in electric resistivity in metastable alloys during thermomechanical loading : Effects of temperature , elasticity, plasticity and phase transformation, Mechanics of Materials, vol.71, pp.1-9, 2014. ,
Behaviour of electrical resistivity in single crystals of Cu-Zn-Al and Cu-Al-Be under stress, Le Journal de Physique IV, vol.11, issue.PR8, pp.8-167, 2001. ,
Electric resistance variation of NiTi shape memory alloy wires in thermomechanical tests : Experiments and simulation, Materials Science and Engineering : A, pp.481-482127, 2008. ,
Phase proportioning in CuAlBe shape memory alloys during thermomechanical loadings using electric resistance variation, International Journal of Plasticity, vol.26, issue.2, pp.258-272, 2010. ,
Electro-thermomechanical behaviour of a Ti-45 ,
Electrical resistivity and strain recovery studies on the effect of thermal cycling under constant stress on R-phase in NiTi shape memory alloy, Physica B : Condensed Matter, vol.324, pp.1-4419, 2002. ,
Study of the stress-assisted two-way memory effect of a Ti?Ni?Cu alloy using resistivity and thermoelectric power techniques, Materials Science and Engineering : A, vol.358, issue.12, pp.350-355, 2003. ,
Coupled stress-strain and electrical resistivity measurements on copper based shape memory single crystals, Materials Research, vol.7, issue.2, pp.305-311, 2004. ,
Position control of shape memory alloy actuators with internal electrical resistance feedback using neural networks, Smart Materials and Structures, vol.13, issue.4, p.777, 2004. ,
Electrical resistivity of Ti?Ni binary and Ti-Ni-X (X = Fe, Cu) ternary shape memory alloys, Materials Science and Engineering : A, pp.438-440, 2006. ,
NNN : Electrical resistivity study and characterization during NiTi phase transformations, Thermochimica Acta, vol.462, issue.12, pp.64-69, 2007. ,