Preface. Committees and Sponsors. List of Participants. List of Contributors. Session Program. Materials with TRIP Effects: Mechanisms and Modelling (Keynote lecture); M. Cherkaoui, M. Berveiller. Constitutive Equation and Computational Prediction of Deformation Behavior of TRIP Steels under Monotonic and Cyclic Loading; Y. Tomita, T. Iwamoto. A Thermodynamic Approach to Modelling of Stress-Induced Phase-Transition Front Propagation in Solids; A. Berezovski, et al. The Formation of Macrotwins in NiAl Martensite; J.M. Ball, D. Schryvers. On the Deformation Mechanism of Shape Memory Alloys; Y. Liu. Nonlinear Electromechanical Deformation and Fracture Related to Domain Switching in Ferroelectric Ceramics; D.-N. Fang, et al. Two-way Shape Memory Effect Obtained by Training of Combined Cyclic Loading; M. Tokuda, et al. Domain Patterns, Texture and Macroscopic Electro-mechanical Properties of Ferroelectrics (Keynote lecture); E. Burcsu, et al. Multiaxial Mechanical Behavior of A Cu-Al-Be Shape Memory Alloy: Experimental Investigations and Phenomenological Modeling; C. Bouvet, et al. Thermomechanical Properties of Polyurethane-Shape Memory Polymer; H. Tobushi, et al. The Transformation Induced Plasticity (TRIP) in a Martensitically Transforming Steel Subjected to a General Loading Path; Th. Antretter, et al. Free Energy of Martensitic Transformation - From Discrete to Homogeneous Microstructure; C. Messner, et al. Single Crystal Deformation Mechanisms in NiTi, NiTiCu and Fe- Based Shape Memory Alloys; H. Sehitoglu, et al. Dependence of Energy Release Rate on the Propagation Speed of Martensitic Transformation in Materials; B. Wang, et al. Martensitic Transformation in Constrained Films (Keynote lecture); A. Roytburd, J. Slutsker. Influence of Microstructural Parameters on Shape Memory Alloys Behavior; E. Patoor, et al. Elastic Deformations in Shape Memory Alloy Fiber Reinforced Composites; H. Tsai, X. Fan. Modeling of Superelastic Adaptive Composites; J. Slutsker, A. Roytburd. Influence of Plasticity on Transformation Behaviour of Martensite in NiTi; Y.-N. Liu. On the Description of Transformation in DO3 To 18R Shape Memory Alloys Using Group Theory; J.J. Zhu, et al. Pressurized Heterogeneous Thin Films of Martensitic Materials; Y.C. Shu. Load Partitioning Among Grains of Martensitically Transforming Shape Memory Alloy Polycrystals Studied By In-situ Neutron Diffraction; P. Šittner, et al. Ti-Ni Sputter-deposited SMA Thin Films and Their Applications (Keynote lecture); S. Miyazaki, et al. On The Description of Martensitic Phase Transformations Using Tensorial Transformation Kinetics; O.T. Bruhns, C. Oberste-Brandenburg. Mechanical Instability of NiTi in Tension, Compression and Shear; D. Favier, et al. Theoretical Study of Heterogeneous Nucleation in Martensitic Phase Transition; W.W. Cao, R. Ahaluwalia. Phase Transformation of Thin Wires in Tension; P. Tong, et al. Unconventional Domain Bands Near a Crack Tip in Ferroelectrics; W. Yang, et al. A Macroscopic Model for Microscopically Heterogeneous Shape Memory Alloys; D. Bernardini. Author Index.
