Low-frequency elastic modulus, internal friction, tensile stress-strain loops, and thermally-induced strain recovery of single-crystal fibers obtained by pulling-down method from the melts of NiFeGaCo alloys were studied. A minimum of the elastic modulus and the maximum peak of the internal friction were obtained at the martensitic transition temperature. A large super-elastic strain of about 10% was obtained in the fiber of the Ni(49)Fe(18)Ga(27)Co(6) alloy. Thermodynamic estimation by the Clausius-Clapeyron equation was consistent with the experimental results.
Elastic and Superelastic Properties of NiFeCoGa Fibers Grown by Micro-Pulling-Down Method
Besseghini S;
2009
Abstract
Low-frequency elastic modulus, internal friction, tensile stress-strain loops, and thermally-induced strain recovery of single-crystal fibers obtained by pulling-down method from the melts of NiFeGaCo alloys were studied. A minimum of the elastic modulus and the maximum peak of the internal friction were obtained at the martensitic transition temperature. A large super-elastic strain of about 10% was obtained in the fiber of the Ni(49)Fe(18)Ga(27)Co(6) alloy. Thermodynamic estimation by the Clausius-Clapeyron equation was consistent with the experimental results.File in questo prodotto:
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Descrizione: Elastic and Superelastic Properties of NiFeCoGa Fibers Grown by Micro-Pulling-Down Method
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