Influence of particles on the functional properties of single crystals of high-strength ferromagnetic alloys I. V. Kretinina, O. A. Kuts, D. A. Kuksgauzen [et.al.]
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ArticleSubject(s): функциональные свойства | ферромагнитные сплавы | память формы | мартенситные превращения | монокристаллыGenre/Form: статьи в журналах Online resources: Click here to access online
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IOP Conference Series: Materials Science and Engineering Vol. 71. P. 012061 (1-6)Abstract: Single crystals of the ordered ferromagnetic Co49Ni21Ga30 (at.%) alloy with B2-L10 martensitic transformation and of the disordered iron-based Fe41Ni28Co17Al11.5X2.5 (X=Ta, Ti) (at.%) alloys, which undergo thermoelastic γ-a' martensitic transformations, were studied in terms of the influence of chemical composition, size and volume fraction of the dispersed γ'- phase particles on functional properties – shape memory effect and superelasticity. Single crystals of Co49Ni21Ga30 alloy showed that the precipitation of nanometric γ'-phase particles changes the martensitic transformation characteristic temperature, reduces the value of the shape memory effect and superelasticity, increases thermal and stress hysteresis, and leads to hardening of the high temperature phase, which promotes superelasticity at a wide temperature range and at high temperatures at T>373K compared with the crystals without particles. Single crystals of FeNiCoAlX (X=Ta, Ti) alloys have experimentally demonstrated that the precipitation of ordered γ'-phase particles at a size of d=5-10 nm during aging at T=973 K, 3 h, leads to the occurrence of the shape memory effect and superelasticity.
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Single crystals of the ordered ferromagnetic Co49Ni21Ga30 (at.%) alloy with B2-L10 martensitic transformation and of the disordered iron-based Fe41Ni28Co17Al11.5X2.5 (X=Ta, Ti) (at.%) alloys, which undergo thermoelastic γ-a' martensitic transformations, were studied in terms of the influence of chemical composition, size and volume fraction of the dispersed γ'- phase particles on functional properties – shape memory effect and superelasticity. Single crystals of Co49Ni21Ga30 alloy showed that the precipitation of nanometric γ'-phase particles changes the martensitic transformation characteristic temperature, reduces the value of the shape memory effect and superelasticity, increases thermal and stress hysteresis, and leads to hardening of the high temperature phase, which promotes superelasticity at a wide temperature range and at high temperatures at T>373K compared with the crystals without particles. Single crystals of FeNiCoAlX (X=Ta, Ti) alloys have experimentally demonstrated that the precipitation of ordered γ'-phase particles at a size of d=5-10 nm during aging at T=973 K, 3 h, leads to the occurrence of the shape memory effect and superelasticity.
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