Solubility and activity of oxygen in liquid antimony


Autoria(s): Jacob, KT; Mathew, PM
Data(s)

01/06/1979

Resumo

The solubility limit of oxygen in liquid antimony has been measured by a novel isopiestic technique in the temperature range 995--1175 deg K. The results can be expressed by the equation log c = --5500/T + 3.754 ( plus/minus 0.04) with c in at.% O and T in deg K. The oxygen potential over Sb + O alloys equilibrium with Sb2O3 has been measured by a solid state cell using a fully stabilized CaO.ZrO2 electrolyte. The cell was designed to contain the Sb + Sb2O3 mixture in a closed volume, that the vaporization of the oxide can be minimized and true equilibrium attained. The Gibbs free energy of the reaction 2 Sb(s) + 3/2 O2 = Sb2O3(s) is Delta G deg = --719560 + 274.51 T( plus/minus 500) and Sb(l) + 3/2 O2 = Sb2O3(l), Delta G deg = --704711 + ( plus/minus 500) ( Delta G deg in J/mole, T in deg K). The combination of these results with Sieverts' law yields the standard free energy of solution of oxygen in liquid antimony according to the reaction 1/2 O2 = \O\Sb,at.% as Delta G deg = --129620 + 14.23 T ( plus/minus 950). The standard enthalopy and entropy of the solution of oxygen in Sb are compared with values for other metal- oyxgen systems, and with the standard enthalpies of formation of corresponding oxides. The resulting correlations permit the estimation of the standard free energy of solution of oxygen in pure metals for which experimental information is lacking. 24 ref.--AA

Formato

application/pdf

Identificador

http://eprints.iisc.ernet.in/42506/1/049._Oxygen_in_liquid_antimony._Z_Metallkd._1979.pdf

Jacob, KT and Mathew, PM (1979) Solubility and activity of oxygen in liquid antimony. In: Zeitschrift fur Metallkunde, 70 (6). pp. 366-371.

Publicador

Carl Hanser Verlag

Relação

http://md1.csa.com/partners/viewrecord.php?requester=gs&collection=TRD&recid=8004340298MD&q=Solubility+and+activity+of+oxygen+in+liquid+antimony&uid=790100313&setcookie=yes

http://eprints.iisc.ernet.in/42506/

Palavras-Chave #Materials Engineering (formerly Metallurgy)
Tipo

Journal Article

PeerReviewed