Abstract: The thermal conduction coefficient of dry barrier powder materials was determined by home-made apparatus of thermal conduction coefficients by water boiling heat exchange method, and its anti-penetration was also determined by crucible method. The results show that the thermal conduction coefficients of dry barrier powder materials increase with increasing density. The thermal conduction coefficients of the used materials are bigger than that of the new one. The anti-penetration is relative to accumulative density, and the anti-penetration of compact materials is better than that of loosening materials. The anti-penetration of dry barrier powder materials is weakened under the same condition of an industrial cell.

Key words: aluminium electrolytic cells; dry barrier powder materials; thermal conduction; anti-penetration