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The effect of thermal-relaxation on the short-range order in Zr80Co20 metallic glass (CROSBI ID 499118)

Prilog sa skupa u zborniku | sažetak izlaganja sa skupa | međunarodna recenzija

Kokanović, Ivan ; Leontić, Boran ; Lukatela, Jagoda ; Tonejc, Anton The effect of thermal-relaxation on the short-range order in Zr80Co20 metallic glass // Rapidly Quenched and metastable Materials 11 / K. O'Reilly, P. Warren, P. Schumacher, B. Cantor (ur.). Oxford, 2002

Podaci o odgovornosti

Kokanović, Ivan ; Leontić, Boran ; Lukatela, Jagoda ; Tonejc, Anton

engleski

The effect of thermal-relaxation on the short-range order in Zr80Co20 metallic glass

We have studied the effect of thermal-relaxation on the short-range order in Zr80Co20 metallic glass by means of differential scanning calorimetry, X-ray diffraction, electrical resistivity and the superconducting transition temperature, Tc. Experimental values for the crystallisation temperature and activation energy of the crystallisation processes were derived by studying these processes at different heating rates. The Tc of the Zr80Co20 metallic glass thermally relaxed with a heating rate of 60 K/min to slightly below its first crystallisation exothermal peak is higher than in unrelaxed Zr80Co20 metallic glass, whereas in all the other thermally relaxed samples Tc decreases with decreasing heating rates and increasing temperature relaxation. The homogeneity of the thermally relaxed Zr80Co20 metallic glass is discussed by using the superconducting transition width as a criterion. The superconducting transitions of thermally relaxed Zr80Co20 metallic glass samples are characterised by a sharp fall in electrical resistance. This suggests that the samples are homogenous on a spatial scale of less than the zero-temperature coherence length 0. The position of the first maximum broad diffraction halo in XRD spectra of the thermally relaxed Zr80Co20 metallic glass is shifted to smaller values of 2 with increasing temperature of relaxation and decreasing heating rates indicating an increase in the nearest-neighbour distance. The decrease of the room-temperature electrical resistivity is explained as a consequence of decreased disorder due to thermal relaxation.

Metallic Glass; Thermal Stability; Crystallisation; Superconductivity

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Podaci o prilogu

2002.

objavljeno

Podaci o matičnoj publikaciji

Rapidly Quenched and metastable Materials 11

K. O'Reilly, P. Warren, P. Schumacher, B. Cantor

Oxford:

Podaci o skupu

11th International Conference on Rapidly Quenched and metastable Materials

predavanje

27.08.2002-31.08.2002

Oxford, Ujedinjeno Kraljevstvo

Povezanost rada

Fizika