Effect of the precipitates on the thermodynamics of the martensitic transformations in Ti-rich Ni-Ti-Co thin films

The wide-spread multiple transformation in Ti-rich Ni-Ti shape memory alloys produced by Ti2Ni nano-precipitates was investigated. For this purpose, a series of amorphous Ti-Ni-Co thin films with the same composition were subjected to different annealing treatments. The characteristic temperatures a...

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Bibliographic Details
Published in:Journal of alloys and compounds 2020-03, Vol.818, p.1, Article 152904
Main Authors: Isola, L.M., Malvasio, B.F., Giordana, M.F., Malarria, J.
Format: Article
Language:English
Subjects:
Annealing
Chemical precipitation
Differential scanning calorimetry
Energy dissipation
Martensitic phase transformation
Martensitic transformations
Ni-Ti shape memory alloys
Precipitates
Shape memory alloys
Sputtering
Thermal hysteresis
Thermal transformations
Thermodynamics
Thin films
Transformation temperature
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Summary:The wide-spread multiple transformation in Ti-rich Ni-Ti shape memory alloys produced by Ti2Ni nano-precipitates was investigated. For this purpose, a series of amorphous Ti-Ni-Co thin films with the same composition were subjected to different annealing treatments. The characteristic temperatures and heat of the transformations were measured by four-point probe resistivity and differential scanning calorimetry. A critical review of the thermodynamics of thermally-induced thermoelastic martensitic transformations is presented. The values of the frictional work and the stored elastic energy associated with the thermoelastic transformations were assessed from the transformation temperatures, and related with the transformation heats measured in the samples annealed at different temperatures. It was observed that the stored elastic energy decreases as the annealing temperature rises due to a change in the distribution of the Ti2Ni precipitates, in concordance with an increase of the transformation heat measured by the calorimeter. Nevertheless, the values of the frictional work were independent of the annealing temperature. The influence of the dissipation of the stored elastic energy on the transformation temperatures and thermal hysteresis is discussed. Finally, a better understanding of the wide-spread multiple transformation, as an effect of the local stresses introduced by Ti2Ni nano-precipitates in the matrix, is proposed. [Display omitted] •The stored elastic energy decreases in concordance with the transformation heat increase.•The values of the frictional work were independent of the annealing temperature.•The stored elastic energy estimation is more accurate using the retransformation temperatures.•The dissipation of stored elastic energy lead to a small decrease of the thermal hysteresis.•The multiple transformation is an effect of the nanoprecipitates on the stored elastic energy.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2019.152904