Determination of the initial thermoelectric power were carried out at 1000K in the whole composition range of the molten systems AgI-Ag 2XO 4 (X=Mo, W). For the composition XAgI=0.8 the investigation was extended to the variation of the thermal e.m.f. at the `melting point' of the electrochemically noteworthy glass-like phases, obtained through rapid quenching of the melt. The hypothesis that these glass-like materials could keep the melt configuration at room temperature is contradicted by the results on the molten systems; more complex interpretations, based on the behaviour of the thermal e.m.f. at the `m.p.' are proposed.
Thermoelectric power of the systems AgI-Ag 2XO 4 (X=Mo, W) / A. Schiraldi, E. Pezzati. - In: ZEITSCHRIFT FÜR NATURFORSCHUNG. TEIL A, PHYSIK, PHYSIKALISCHE CHEMIE, KOSMOPHYSIK. - ISSN 0340-4811. - 31:9(1976 Sep), pp. 1077-1080. [10.1515/zna-1976-0912]
Thermoelectric power of the systems AgI-Ag 2XO 4 (X=Mo, W)
A. SchiraldiPrimo
;
1976
Abstract
Determination of the initial thermoelectric power were carried out at 1000K in the whole composition range of the molten systems AgI-Ag 2XO 4 (X=Mo, W). For the composition XAgI=0.8 the investigation was extended to the variation of the thermal e.m.f. at the `melting point' of the electrochemically noteworthy glass-like phases, obtained through rapid quenching of the melt. The hypothesis that these glass-like materials could keep the melt configuration at room temperature is contradicted by the results on the molten systems; more complex interpretations, based on the behaviour of the thermal e.m.f. at the `m.p.' are proposed.File | Dimensione | Formato | |
---|---|---|---|
[Zeitschrift fr Naturforschung A] Thermoelectric Power of the Systems AgI-Ag2 XO4 (XMo W).pdf
accesso aperto
Tipologia:
Publisher's version/PDF
Dimensione
3.6 MB
Formato
Adobe PDF
|
3.6 MB | Adobe PDF | Visualizza/Apri |
Pubblicazioni consigliate
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.