HPY408——Rubidium/Cesium Extraction Resin

HPY408——Rubidium/Cesium Extraction Resin

Product Advantages

High-capacity selective adsorption: the high-density active sites in the nanopore channels of the porous polymer bind specifically to rubidium cesium ions, and the dynamic adsorption capacity is significantly better than that of traditional ion exchange resins, maintaining the preferential adsorption characteristics of rubidium cesium even in the presence of a high concentration of competing ions (e.g., Na⁺, K⁺, Ca²⁺). Preferential adsorption characteristics.

Highly efficient mass transfer through multi-stage pores: the rich micro-mesoporous composite structure gives the material excellent hydrodynamic diffusion performance, shortens the ion diffusion path, improves the adsorption kinetic rate, and increases the processing efficiency by more than 40% compared with that of conventional adsorbents.

Extreme environmental tolerance: through the molecular skeleton cross-linking reinforcement and active component stabilization technology, the material maintains stable chemical properties and mechanical strength (compressive strength >15 MPa) in strong acid/alkali, high salinity and high temperature (≤80℃) environments, adapting to the needs of complex industrial working conditions.

Long-term operational reliability: the “rigid-flexible” polymer matrix design effectively reduces structural fatigue in the adsorption-desorption cycle, with excellent resistance to scouring and abrasion, and the service life can be up to three times that of traditional materials, significantly reducing operation and maintenance costs.

Application effects

HPY408 rubidium cesium adsorbent provides efficient separation solutions for rare metal recycling, nuclear wastewater treatment, high value-added mineral extraction and other fields, which can enhance the recovery rate of rubidium cesium to over 95% and help resource recycling and industrial greening upgrade.

Physical and chemical indicators