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Mechanical Behaviour and Phase Transition Mechanisms of a Shape Memory Alloy by Means of a Novel Analytical Model

Andrea Carpinteri

Andrea Carpinteri

Department of Engineering and Architecture, University of ParmaParma, Italy
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Carpinteri, Andrea
, 
Vittorio Di Cocco

Vittorio Di Cocco

Department of Civil and Mechanical Engineering, University of Cassino and Lazio MeridionaleItaly
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Di Cocco, Vittorio
, 
Giovanni Fortese

Giovanni Fortese

Department of Engineering and Architecture, University of ParmaParma, Italy
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Fortese, Giovanni
, 
Francesco Iacoviello

Francesco Iacoviello

Department of Civil and Mechanical Engineering, University of Cassino and Lazio MeridionaleItaly
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Iacoviello, Francesco
, 
Stefano Natali

Stefano Natali

Department Chemical Engineering Materials Environment, University of Roma “La Sapienza”Rome, Italy
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Natali, Stefano
, 
Camilla Ronchei

Camilla Ronchei

Department of Engineering and Architecture, University of ParmaParma, Italy
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Ronchei, Camilla
, 
Daniela Scorza

Daniela Scorza

Department of Engineering and Architecture, University of ParmaParma, Italy
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Scorza, Daniela
, 
Sabrina Vantadori

Sabrina Vantadori

Department of Engineering and Architecture, University of ParmaParma, Italy
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Vantadori, Sabrina
 und 
Andrea Zanichelli

Andrea Zanichelli

Department of Engineering and Architecture, University of ParmaParma, Italy
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Zanichelli, Andrea
  
17. Juli 2018
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Online veröffentlicht: 17. Juli 2018
Seitenbereich: 105 - 108
Eingereicht: 19. Apr. 2017
Akzeptiert: 08. Juni 2018
DOI: https://doi.org/10.2478/ama-2018-0017
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© 2018 Andrea Carpinteri et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.

The aim of the present paper is to examine both the fatigue behaviour and the phase transition mechanisms of an equiatomic pseudo-elastic NiTi Shape Memory Alloy through cyclic tests (up to 100 loading cycles). More precisely, miniaturised dog-bone specimens are tested by using a customised testing machine and the contents of both austenite and martensite phase are experimentally measured by means of X-Ray diffraction (XRD) analyses. On the basis of such experimental results in terms of martensite content, an analytical model is here formulated to correlate the stress-strain relationship to the phase transition mechanisms. Finally, a validation of the present model by means of experimental data pertaining the stress-strain relationship is performed.

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