For precision electronic components, a 2% decrease in conductivity per 0.01% increase in iron content constitutes an unacceptable defect. Traditional metal tools like iron shell-forming tools and slag scoops are highly susceptible to corrosion in high-temperature molten salt environments. The PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC equipment employs corrosion-resistant materials to prevent Fe³⁺ ion release that could contaminate the electrolyte.
The operating conditions of the PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC process are highly sensitive. The electrolyzer's working temperature is typically maintained between 940–960°C. Excessive temperatures accelerate cryolite volatilization and increase energy consumption, while insufficient temperatures cause electrolyte viscosity to rise, hindering alumina dissolution and ion migration, which frequently triggers anodic effects. Current density, as another critical parameter, directly influences both the aluminum deposition rate and crystalline structure.
The PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC system maintains stable current density, effectively preventing hot spot formation, accelerating cathode carbon block erosion, and reducing impurity element precipitation. Although alkali earth metals like sodium and calcium do not directly participate in the main reaction, they can enter molten aluminum through displacement reactions, altering the alloy's phase structure and affecting mechanical properties. Furthermore, the contamination risks caused by equipment aging should not be overlooked.
Contact: DELLA
Mob: +86-13929907491
