Phase transition and mechanical damping properties: A DMTA study of NiTiCu shape memory alloys

Internal friction measurement is a well-known investigation technique of the damping property of shape memory alloys (SMAs). It has already been demonstrated that this practice conducted in temperature scanning at a constant solicitation frequency is also useful in determining the path of the marten...

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Veröffentlicht in:	Intermetallics 2013-01, Vol.32, p.394-400
Hauptverfasser:	Nespoli, Adelaide, Passaretti, Francesca, Villa, Elena
Format:	Artikel
Sprache:	eng
Schlagworte:	A. Intermetallics, miscellaneous Alloys B. Internal friction B. Martensitic transformations B. Shape memory effect Damping Dynamic tests F. Mechanical testing Internal friction Martensitic transformations Phase transformations Scanning Shape memory alloys
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description	Internal friction measurement is a well-known investigation technique of the damping property of shape memory alloys (SMAs). It has already been demonstrated that this practice conducted in temperature scanning at a constant solicitation frequency is also useful in determining the path of the martensitic transformation and also the influence of hydrogen content on the martensitic properties. There is indeed a lack of studies about SMA internal friction as a function of solicitation frequency; systematic and rigorous analysis has not been reported yet. In this work the path of the martensitic transformation of Ni50−xTiCux alloys (x = 3–10at%) is investigated through Dynamic Mechanical Thermal Analysis (DMTA): internal friction as a function of temperature at a constant flexural frequency and internal friction as a function of flexural frequency at a constant temperature were evaluated. Results show that the two scans are both sensitive to phase transitions and microstructural changes. ► T-scan internal friction measure shows the orthorhombic structure at x = 6at%. ▶ T-scan internal friction measure is more sensitive as respect to thermal analysis. ▶ F-scan internal friction measure is a new probe in the study of phase transition.
doi_str_mv	10.1016/j.intermet.2012.09.005
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subjects	A. Intermetallics, miscellaneous Alloys B. Internal friction B. Martensitic transformations B. Shape memory effect Damping Dynamic tests F. Mechanical testing Internal friction Martensitic transformations Phase transformations Scanning Shape memory alloys
title	Phase transition and mechanical damping properties: A DMTA study of NiTiCu shape memory alloys
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