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Vol. 29. Núm. 1.
Materiais 2015
Páginas e23-e26 (enero - abril 2017)
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Vol. 29. Núm. 1.
Materiais 2015
Páginas e23-e26 (enero - abril 2017)
Acceso a texto completo
Influence of ageing treatment on the thermophysical characteristics and mechanical properties of forging wire Ni-rich NiTi alloy for superelastic applications
Visitas
1027
P.F. Rodriguesa,e,
Autor para correspondencia
pf.rodrigues@campus.fct.unl.pt

Corresponding author.
, F.M.B. Fernandesa, E.N. Texeirab, S. Baptistac, A.S. Paulac,d, J.P. Oliveiraa
a CENIMAT, Materials Science Dept, Faculdade de Ciências e Tecnologia, Universidade NOVA de Lisboa, Portugal
b Centro Universitário de Volta Redonda - UNIFOA, Brazil
c Metallurgical Engineering Pos-graduation Program - PPGEM, Universidade Federal de Fluminense – UFF, Brazil
d Mechanical and Materials Engineering Department - SE-4, Instituto Militar de Engenharia – IME, Brazil
e CAPES – Foundation Ministry of Education of Brazil, Brasília – DF – Brazil
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Abstract

NiTi alloys used for orthodontic applications need to show superelastic characteristics at room and oral temperatures. The ideal scenario is that where the material has a final austenitic phase transformation value below the room temperature. This study aims at understanding the influence of the ageing treatments in the austenitic structure at room temperature on a wire of a Ni-rich NiTi alloy produced by rotary forging by the evaluation of the phase transformation temperatures and mechanical behaviour in order to promote the superelastic behaviour at room temperature. The investigation was conducted using DSC (Differential Scanning Calorimetry) analysis and instrumented ultramicrohardness. The solubilisation at 950°C for 120min with water quenching showed a satisfactory amount of B2 phase at room temperature when compared to the sample after forging. After solubilisation, ageing treatment at 350°C for 30min gave a relatively higher hardness value and an Af temperature below the room temperature, ensuring the presence of austenitic phase at room and oral temperatures.

Keywords:
Ni-Ti alloys
solubilisation
orthodontic applications
differential scanning calorimetry
ultramicrohardness
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Copyright © 2017. Portuguese Society of Materials (SPM)
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