SPILLOVER EFFECT IN THE HYDROGEN ABSORPTION BY THE POLYCRYSTALLINE POWDER ALLOY FENI1.75CU1.5MO0.5 AND ELECTRIC-CONDUCTIVITY OF THE PRESSEDPOWDER

The process of hydrogen absorption by the FeNi1.75Cu1.5Mo0.5 alloy in the polycrystalline form was investigated for both the pure and pallad ized forms (0.008 76% Pd) at temperatures from ambient to 600-degrees- C in a hydrogen flow. Using differential scanning calorimetry, (DSC) t hermogravimetry (TG) and X-ray diffraction, the influence of palladiza tion on the hydrogen absorption was demonstrated. Kinetic analysis of the DSC thermograms, the kinetic and thermic parameters of hydrogen ab sorption were determined. The TG thermograms showed that on hydrogen a bsorption a weight change took place due to water formation and reduct ion of the oxide film at the surface of the powder particles. The acti vation energies of hydrogen absorption were 170 kJ mol-1 for the origi nal powder and 32 kJ mol-1 for the palladized one. The enthalpies of t he absorption ranged from DELTAH = - 5 to DELTAH = - 380 J g-1 for the original and palladized powder, respectively. The rate constants of t he absorption depended on the palladization and were found to be 0.03 and 1.20 s 1, respectively, at 162-degrees-C. The electric conductivit y of the pressed powder (9 kbar) increases on heating in both air and a hydrogen atmosphere up to 600-degrees-C, tending to a constant value . The changes of the parameters characteristic of the palladized form are ascribed to the mechanism of a hydrogen spillover effect due to th e presence of palladium.