2010
DOI: 10.1016/j.jallcom.2010.01.085
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Investigation on mechanical properties of sputtered TiNi thin films

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Cited by 15 publications
(6 citation statements)
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“…It is well-known that the Ti-rich Ni-Ti films have higher M s than the Ni-rich films [19]. Similarly, we also find existence of B19 0 phases in Ni-rich Ni-Ti alloys, it should be noted that all of them contain Ni 3 Ti precipitates [22,29]. In addition, the change of transformation path from B2-R-B19 0 to B2-B19 0 also indicates the increase of the matrix Ti content, due to the Ti-rich films show one-step phase transformation in general [14].…”
Section: Phase Transformation Analysissupporting
confidence: 81%
“…It is well-known that the Ti-rich Ni-Ti films have higher M s than the Ni-rich films [19]. Similarly, we also find existence of B19 0 phases in Ni-rich Ni-Ti alloys, it should be noted that all of them contain Ni 3 Ti precipitates [22,29]. In addition, the change of transformation path from B2-R-B19 0 to B2-B19 0 also indicates the increase of the matrix Ti content, due to the Ti-rich films show one-step phase transformation in general [14].…”
Section: Phase Transformation Analysissupporting
confidence: 81%
“…The values of hardness (7.8 ± 4 GPa) and modulus (83 ± 42 GPa) measured in this investigation are, however, much lower than those observed for TiN coatings of similar thicknesses deposited by unbalanced magnetron sputtering [48], where typical hardness and modulus values were 22.8 ± 3.4, and 276 ± 41 GPa, respectively. The values recorded here for the TiN film is closer to those of TiNi coatings which generally have values from 7.2 to 9.2 and 113 to 132 GPa, respectively [49]. Hence, the values of hardness and modulus measured are actually a combined one from the graded layer of TiN/TiNi film response.…”
Section: Thin-film Characterisationsupporting
confidence: 69%
“…In particular, the addition of a small amount of Y 2 O 3 nanoparticles (0.1~0.5 wt.%) in the alloy matrix can not only improve its mechanical properties, but also annihilate the defects effectively caused by irradiation [16][17][18][19]. Moreover, the grain refinement of structural materials is also treated as one of the effective methods of optimizing the strength and irradiation resistance properties, owing to the high density of interface, especially in nanocrystalline materials, as reported in nanocrystalline Au (grain size~23 nm) [20] and TiNi alloys (grain size 23-31 nm) [21]. This is because the high-density interface in nanocrystalline materials can effectively absorb and annihilate the irradiation defects, which shows a better anti-irradiation performance than that of coarse grain materials.…”
Section: Introductionmentioning
confidence: 99%