Study of (molybdenum + tellurium) by Knudsen-effusion mass spectrometry

Reliable thermodynamic and phase diagram data are essential to understand the behaviour of fuels in a nuclear reactor. The fission product tellurium is believed to play a significant role in fuel-cladding interaction in the oxide-fuelled fast breeder reactor. In order to assess its role in the fuel-

Vaporization studies on {(1 -x)Mn + xTe} samples, where x = (0.549, 0.599, 0.718, 0.720, and 0.741) were conducted by Knudsen effusion mass spectrometry. Experiments with the first two samples yielded vapor pressures for the two-phase region (manganese ditelluride + manganese monotelluride) in the t

The vapour pressure of pure C 76 and its sublimation enthalpy have been determined by Knudsen cell mass spectrometry in the temperature range 637-911 K. The temperature-pressure equation is ln p(Pa) = (À22 806 AE 820)/T(K) (24.52 AE 1.08). The mean sublimation enthalpy at 764 K is (190 AE 7) kJ/mol.

The partial pressures of Ge(g), Si(g), Si2(g), Ge2(g), GeSi(g), GeSi2(g), Ge2Si(g), and Ge2Si2(g) were measured over a (germanium + silicon + silicon nitride + silver) condensed-phase mixture in the temperature range 1583 K to 1869 K by Knudsen-effusion mass spectrometry. The thermal functions for t

## Abstract For Abstract see ChemInform Abstract in Full Text.