Study of graded Ni-Ti shape memory alloy film growth on Si(100) substrate |
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Authors: | RMS Martins N Schell A Mücklich H Reuther M Beckers RJC Silva L Pereira FM Braz Fernandes |
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Institution: | (1) Institute of Ion Beam Physics and Materials Research, Forschungszentrum Dresden-Rossendorf, P.O. Box 510119, 01314 Dresden, Germany;(2) Institute for Materials Research, GKSS Research Center, Max-Planck-Str. 1, 21502 Geesthacht, Germany;(3) CENIMAT, Campus da FCT/UNL, 2829-516 Monte de Caparica, Portugal |
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Abstract: | In-situ X-ray diffraction (XRD) was employed to study the effect of the deliberate change of the Ti/Ni ratio during the deposition
of Ni-Ti films. Thus, graded films were deposited exhibiting distinctive composition and crystalline structure along the growth
direction. The as-sputtered films were ex-situ characterized by Auger electron spectroscopy (AES), cross-sectional transmission
electron microscopy (XTEM), and electrical resistivity (ER) measurements (during thermal cycling). In this paper results are
presented concerning a film (thickness of ≈ 420 nm) with a Ti-rich composition in the central part (ranging from 50 to ≈60 at. %)
and near-equiatomic composition in the extremities, following four distinct deposition periods (different Ti target powers).
During the initial deposition step (near-equiatomic composition) the Ni-Ti B2 phase starts by stacking onto (h00) planes on
the naturally oxidized Si(100) substrate due to the presence of the native Si oxide (2–3 nm). The increase of the power of
the Ti target in the second and third steps induced the precipitation of Ti2Ni. When stopping the Ti co-sputtering, Ti2Ni dissolves and, thus, plays the role of a Ti reservoir for the formation of B2 phase now preferentially stacking onto (110)
with the system approaching again the equiatomic composition. The ex-situ study of the morphology of the interface has shown
the presence of NiSi2 silicides (A-NiSi2 and B-NiSi2), Ti4Ni4Si7, Ti2Ni and a non-identified phase constituted by Ni, Ti and Si, most likely amorphous. During thermal cycling, ER measurements
revealed phase transitions associated with the B2, R-phase and B19′ phases. These type of studies allow the identification of intermediate states during deposition and annealing, and the correlation
with the final structure of the film, being useful for the optimisation of the deposition parameters in order to fabricate
films with a two-way reversible actuation.
PACS 81.15.Cd; 61.10.Nz; 68.55.Jk |
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