A New Prototype Two-Phase (TiNi)-(β-W) SMA System with Tailorable Thermal Hysteresis
The Ti–Ni–W two‐phase shape memory alloy (SMA) thin film system is presented as a prototype for new SMAs with tailorable thermal transformation hysteresis (ΔT). The concept is to combine the SMA TiNi with almost insoluble W to create the two‐phase system (TiNi)–(β‐W). This system behaves like a pseu...
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Veröffentlicht in: | Advanced functional materials 2011-01, Vol.21 (1), p.113-118 |
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Sprache: | eng |
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Zusammenfassung: | The Ti–Ni–W two‐phase shape memory alloy (SMA) thin film system is presented as a prototype for new SMAs with tailorable thermal transformation hysteresis (ΔT). The concept is to combine the SMA TiNi with almost insoluble W to create the two‐phase system (TiNi)–(β‐W). This system behaves like a pseudobinary TiNi system. Phase transformation behavior for compositions above the solubility limit of W in TiNi exhibit a B2–R phase transformation with characteristically small ΔT. Moreover, ΔT is dependent on the amount of W and it can be tailored to zero and even negative. This phenomenon is rationalized as being due to the mechanical interaction between the phases B2‐TiNi and β‐W. The presented results are very promising for the development of high‐speed Ti–Ni‐based SMA actuators.
We present an approach to inkjet print high‐performance organic transistors by printing the organic semiconductor ink on a thin, continuous, and solvent‐absorbing layer of insulating material. The ink spreading is effectively controlled by local dissolution of the layer, and during drying the characteristic circular morphology with high rims and inner plateau forms. |
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ISSN: | 1616-301X 1616-3028 1616-3028 |
DOI: | 10.1002/adfm.201001697 |