Microstructural characterization of mechanically alloyed and sintered Ni-48Ti-2Fe and Ni-45Ti-5Fe alloys
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2017
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LATIN AMERICAN CONFERENCE ON METASTABLE AND NANOSTRUCTURED MATERIALS, 7th
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Resumo
Ni-Ti alloys, also known as nitinol, are based on the martensitic NiTi phase (monoclinic
B’19 structure) exhibit unique properties such as shape memory effect and super
elasticity, and its martensitic transformation temperature depends on the nitinol
composition and processing. Its typical value is a temperature range between 20-50 °C.
The use of alloying can contribute to avoid the undesirable Ni3Ti and NiTi2 formation.
According to the isothermal section at 900oC of the Ti-Ni-Fe system, it exists a wide
single-phase region extended from the NiTi to FeNi. High-energy ball milling can
produce nanomaterials and metastable structures. The present work reports on the
microstructural characterization of the Ni-48Ti-2Fe and Ni-45Ti-5Fe alloys prepared by
high-energy ball milling and subsequent sintering. The elemental powder mixtures were
processed for different times (1, 3 and 5 hours) in a planetary Fritsch P-5 ball mill under
argon atmosphere using hardened steel vials (225 mL) and balls (12mm diameter),
rotary speed of 200 rpm, and a ball-to-powder weight ratio of 10:1. Green bodies with
10 mm diameter were compacted by axial pressing and sintered at 900oC and 1100oC
for 4 h under argon atmosphere. Information on the phase transformations in the milled
powders and sintered alloys were obtained by X-ray diffraction, scanning electron
microscopy, energy dispersive spectrometry, and thermal analyses (DSC/TG). Only the
Ni and Ti peaks were noted in XRD patterns of the Ni-48Ti-2Fe and Ni-45Ti-5Fe
powders milled for 5 h. In addition, the major Ni and Ti peaks were broadened and
moved toward the indicating that the iron atoms were preferentially dissolved into the
Ni lattice to form extended solid solutions. The microstructures of the sintered Ni-48Ti-
2Fe and Ni-45Ti-5Fe alloys were mainly formed by the NiTi phase (monoclinic B’19
structure), and their martensitic transformations were close to 50oC.
Como referenciar
SILA, L.R.; LEAL NETO, R.M.; FIORIN, B.; RAMOS, A.S.; RAMOS, E.C.T. Microstructural characterization of mechanically alloyed and sintered Ni-48Ti-2Fe and Ni-45Ti-5Fe alloys. In: LATIN AMERICAN CONFERENCE ON METASTABLE AND NANOSTRUCTURED MATERIALS, 7th, March 19-22, 2017, Brotas, SP. Abstract... Disponível em: http://repositorio.ipen.br/handle/123456789/28673. Acesso em: 30 Dec 2025.
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