Abstract

The crystallization temperature and composition dependece of morphology of precipitates and precipitates effect on martensitic transformation of sputter-deposited Ti-rich Ti-Ni alloy films were investigated.For the investigation by the electron microscopy on precipitates morphology behavior, the deposited amorphous films were crystallized and concurrently aged by holding at various temperatures between 693 K and 823 K. The following schemes were observed depending on Ti-rich Ti-Ni alloy films composition and heat-treatment temperature: (a) Precipitate-free; (b) Plate-like precipitates exist in the B2 phase; (c) Plate-like precipitates and spherical Ti2Ni precipitates coexist in the B2 matrix; (d) Ti2Ni precipitates exist in the B2 matrix; (e) Ti2Ni precipitates with and without orientation relationship to the matrix.Then, for investigating composition and crystallization temperature dependence of B2⇔R transformation temperatures the amorphous films were crystallized by holding at various temperatures, 723 K, 773 K and 973 K, for 3.6 ks. For investigation of precipitates effect on the martensitic transformation behavior, the sputter-deposited amorphous films were crystallized and concurrently aged by holding at various temperatures, 695 K and 723 K. The specimens were analyzed with differential scanning calorimetry (DSC) and the following was found. The martensitic transformation behavior changed depending on crystallization temperature and composition. The B2⇔R transformation temperatures of the thin films crystallized at temperatures between 723 K and 773 K were the lowest at Ti-48.5 at%Ni and plate-like precipitates lowered the B2⇔R transformation temperatures.The R⇒B19′ transformation temperatures were lowered by distribution of fine Ti2Ni precipitates of Ti-47.0 at%Ni∼Ti-48.5 at%Ni sample crystallized at low temperatures.

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