STUDY OF THE MARTENSITIC TRANSITION IN Ni-Mn-Sn-Ti FERROMAGNETIC SHAPE MEMORY ALLOYS

Federico Guillermo Bonifacich; Osvaldo Agustín Lambri; José Ignacio Pérez-Landazábal; Vicente Recarte; Damián Gargicevich; Griselda Irene Zelada; Ricardo Raul Mocellini; Vicente Sánchez-Alarcos; Aldo Marenzana; Fernando Plazaola

Conferencias de la Universidad Nacional de Córdoba, Congreso Internacional de Metalurgia y Materiales

Federico Guillermo Bonifacich, Osvaldo Agustín Lambri, José Ignacio Pérez-Landazábal, Vicente Recarte, Damián Gargicevich, Griselda Irene Zelada, Ricardo Raul Mocellini, Vicente Sánchez-Alarcos, Aldo Marenzana, Fernando Plazaola

Última modificación: 12-10-2016

Resumen

Ferromagnetic shape memory alloys (FSMA) are a potential actuator material that exhibit large strain and high frequency response. FSMA pilot samples are usually small and brittle. In the present work, a novel piezoelectric device for measuring mechanical spectroscopy (MS) as a function of temperature and strain has been developed in order to study Ni₅₀Mn₃₇Sn_11-xTi_x (x=0, 2) FSMA. Differential thermal analysis (DTA) and Superconducting Quantum Interference Device (SQUID) measurements were also carried out.

The equipment involves five oscillating elements, a crystal driver, two spacer bars, the sample and the crystal gauge [1]. The new device here developed results an important solution for measuring mechanical spectroscopy, where the condition of match in frequency cannot be satisfied due to limitations in the production process.

Polycrystalline ingots of Ni₅₀Mn₃₇Sn₁₃ and Ni₅₀Mn₃₇Sn₁₁Ti₂ (at.%) were prepared from high-purity elements by arc melting under a protective Ar atmosphere. The ingots were re-melted several times and then homogenized in vacuum quartz ampoules at 1273 K for 4 h.

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