Abstract:The floatation behaviors of Co-enriched crushed products and commercialized electrode materials were compared, and the mechanism caused different floatation behavior was analyzed. The results show that, because of a huge floatability difference between commercialized electrode materials, the flotation of simulation material, a mixture of LiCoO₂ and graphite, achieve good enrichment, the product grade of Co increases from 15.66% to 50.71%. The organic impurity containing C, F, P and O covers on rough surface of recovered material obtained from disassembled spent lithium-ion batteries. The impurity leads to different surface properties including the content decrease of related elements, similar surface chemical composition of LiCoO₂ with graphite, and cause the change of materials surface wettability. After the flotation of Co-enriched crushed products, the grade of Co increases from 24.21% to 28.08%. Therefore, the surface modification must be conducted to the recovered Co-enriched crushed products to enlarge the wettability differences before floatation. As a result, the efficient effect of floatation separation can be achieved.

Key words: spent lithium-ion batteries; floatation; LiCoO₂; graphite; recycling