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The crystal structure parameters of the R-phase in a binary Ni50.8Ti49.2 shape memory alloy were redetermined using a device minimizing texture effects on neutron diffraction intensities.
Direct measurements of reversible magnetic-field-induced strain (MFIS) on a single crystalline Ni45Co5Mn36.5In13.5 metamagnetic shape memory alloy were attained via magnetic-field-induced martensitic transformation under different stress levels and at various temperatures.
The whole-life transformation ratchetting and fatigue failure (including functional fatigue and structural fatigue) of super-elastic NiTi shape memory alloy were observed by uniaxial stress-controlled cyclic loading tests and at room temperature.
The martensite structure and substructure in a Ti36.5Ni48.5Hf15 high temperature shape memory alloy were investigated by X-ray diffraction, transmission electron microscopy (TEM) and high resolution electrom microscopy (HREM).
The twin relationships of the A C type non-modulated martensitic variant pair in Ni54Mn25Ga21 ferromagnetic shape memory alloy were investigated in detail through experimental observations and theoretical calculations.
The evolution of the degree of L21 long-range atomic order and its influence on the martensitic transformation and Curie temperatures of a near-stoichiometric Ni2MnGa shape memory alloy were studied during several thermal treatments.
Similar(51)
The Fe 30Mn 6Si 5Cr shape memory alloy was ion-nitrided to modify the surface conditions.
A Ginzburg Landau model for the macroscopic behaviour of a shape memory alloy is proposed.
In this study, a passive solid state thermal diode with shape memory alloy is built and investigated experimentally.
When a martensitic shape memory alloy is deformed, the reverse transformation occurs at higher temperature than that of undeformed martensite.
A 〈1 0 0〉 textured polycrystalline FeNiCoAlTa shape memory alloy was recently shown to possess large superelastic strain and stress levels.
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