The effect of precipitates on the superelastic response of [100] oriented FeMnAlNi single crystals under compression L. W. Tseng, J. Ma, B. C. Hornbuckle [et.al.]
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Acta materialia Vol. 97. P. 234-244Abstract: FeMnAlNi shape memory alloys were recently discovered to have a small temperature dependence of the superelastic critical stress in a large superelastic temperature window from 196 C to 240 C. In this work, we investigated the effect of B2 nanoprecipitates on the superelastic characteristics of [100] oriented Fe43.5Mn34Al15Ni7.5 single crystals under compression, and found that the size, volume fraction and composition of precipitates strongly influence the transformation temperature, superelastic strain,critical stress for stress-induced martensitic transformation and stress hysteresis of the single crystals. The single crystals aged at 200 C for 3 h show 7.2% superelastic strain with the precipitate size of about 6–10 nm. Longer aging times or higher aging temperature reduces superelastic recovery due to the coarsening of the precipitates.
FeMnAlNi shape memory alloys were recently discovered to have a small temperature dependence of the superelastic critical stress in a large superelastic temperature window from 196 C to 240 C. In this work, we investigated the effect of B2 nanoprecipitates on the superelastic characteristics of [100] oriented Fe43.5Mn34Al15Ni7.5 single crystals under compression, and found that the size, volume fraction and composition of precipitates strongly influence the transformation temperature, superelastic strain,critical stress for stress-induced martensitic transformation and stress hysteresis of the single crystals. The single crystals aged at 200 C for 3 h show 7.2% superelastic strain with the precipitate size of about 6–10 nm. Longer aging times or higher aging temperature reduces superelastic recovery due to the coarsening of the precipitates.
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