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1 tion Ni(2)MnGa is a well known ferromagnetic shape-memory alloy.
2 ive compared to their metallic counterparts, shape memory alloys.
3 e intervals of the deformation mechanisms of shape memory alloys.
4 ated with diffusionless phase transitions in shape-memory alloys.
5 can be reversible, such as those observed in shape-memory alloys.
7 ve polymers ( > 1KV), low strain ( < 10%) of shape memory alloys and the need for external compressor
10 metric Ni(2)MnGa Heusler alloy is a magnetic shape-memory alloy capable of reversible magnetic-field-
11 port on the discovery of an ultralow-fatigue shape memory alloy film system based on TiNiCu that allo
12 twisted nanofiber yarns; thermally activated shape-memory alloys; ionic-polymer/metal composites; die
14 artensite phase of shape memory and magnetic shape memory alloys (MSMAs) is believed to be a precurso
18 ajor obstacle to the functional stability of shape memory alloys (SMAs), especially for high temperat
20 e range of applications from fatigue life in shape-memory alloys (SMAs) to magnetism in multiferroic
21 ing L10-FePt films on pre-stretched NiTi(Nb) shape memory alloy substrates, steerable and nonvolatile
22 e propose a new design strategy that employs shape memory alloy to transcribe the "J-curve" mechanica
25 een nanowires and orientated martensite NiTi shape memory alloy, we developed an in-situ Nb nanowires
26 asurements revealed that these meta-magnetic shape memory alloys were capable of generating entropy c
27 ic transformations in NiCoMnIn meta-magnetic shape memory alloys were studied under constant and vary
28 y low thermal hysteresis (DeltaT) NiTi-based shape memory alloys, with Ti50.0Ni46.7Cu0.8Fe2.3Pd0.2 po
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