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Shape Memory Alloys/Nitinol

Shape Memory Alloys/Nitinol

Shape memory alloys (SMA)/Nitinol are active, “smart” materials that, after being severely deformed, can exhibit the fascinating and unusual property of remembering their original shape i.e. recovering of the initial geometry by heating (shape memory) or simply by unloading (superelasticity).


A deep understanding of the complicated mechanisms occurring in these materials and the factors affecting the functional properties along with the identification of the process-microstructure-properties relationships is the key for continuous quality improvements, for designing new materials on a theoretical level and for modeling new components.

Shape Memory Alloys/Nitinol in:


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  • "Macroscopic Modeling of Functional Fatigue"  written by  N. Barrera, P. Biscari, M. Urbano - In progress on May-June 2014 - to publish on the European Journal of Mechanics - A/Solids by Elsevier;
  • "The Effect of Inclusions on Fatigue Properties for NiTinol"  written by M. Urbano,  A. Coda, S. Beretta, A. Cadelli, F. Sczerzenie - September 2013 - published by ASTM International;
  • "Characterization of Inclusions in VIM/VAR NiTi Alloys" written by   A. Coda,  S. Zilio,  D. Norwich and    F. Sczerzenie - September 2012 -published on Journal of Materials Engineering and Performance by Springer;
  • "Study of the Influence of Inclusions on the Behavior of NiTi Shape-Memory Alloys in Thermal Cycling by Means of Finite Element         Method" written by  M. Urbano - August 2012 -published on Metallurgical and Materials Transactions  by Springer;
  • "Theoretical and Experimental Investigation on SMA Superelastic Springs" written by  G. Attanasi, F. Auricchio and  M. Urbano - July  2011 -published on Journal of Materials Engineering and Performance by Springer;
  • "Theoretical and Experimental Study of the Shape Memory Effect of Beams in Bending Conditions" written by  F. Auricchio, S. Morganti,  A. Reali and  M. Urbano - July  2011 -published on Journal of Materials Engineering and Performance by Springer;
  • "New Materials for Technological Applications from the Ti-Cr-Cu Ternary System" written by  A. Provino, P. Manfrinetti, D. Mazzone,  C. Bernini, C. Boffito,               A. Corazza and A. Coda - 2011 - published by Nova Science Publishers, Inc.;
  • "SMA Numerical Modeling Versus Experimental Results: Parameter Identification and Model Prediction Capabilities"  written by                  F. Auricchio,  A. Coda, A. Reali and  M. Urbano - August  2009 -published on Journal of Materials Engineering and Performance by Springer;
  • "SmartFlex NiTi Wires for Shape Memory Actuators"  written by  L.  Fumagalli,   F. Butera and  A. Coda - September 2008 - published by Trans Tech Publications, Switzerland;
  • "SmartFlex NiTi Wires for Shape Memory Actuators" written by   A. Coda,  F. Butera,  G. Vergani, L.  Fumagalli and  L. Toia  - September 2007 - Proceedings of the International Conference on Shape Memory and Superelastic Technology  - Tsukuba, Japan - published  by ASM International;
  • "Phase transitions and thermally activated hydrogen dynamics in ZrV2Hx  (0≤x≤1)  intermetallic compounds"  written by  F. Trequattrini, F. Cordero, G. Cannelli,    R. Cantelli, A. Coda and A. Gallitognotta - October 2006 - published by Elsevier;
  • "Investigation on the Hysteretic Behavior of NiTi Shape Memory Wires Actuated Under Quasi-Equilibrium and Dynamic Conditions" written by A. Coda, M. Urbano, L.  Fumagalli and F. Butera - March 2006 - published by ASM International;
  • "Anelastic relaxation in ZrV2Hx  intermetallic compounds"  written by  F. Trequattrini, F. Cordero, G. Cannelli,   R. Cantelli, A. Coda and A. Gallitognotta - February 2006 - published by Elsevier.