Synthesis and performance study of PAM-g-PAA/PHEA and its application in purifying tellurium aerosol

Abstract

In this study, grafted polymers (PAM-g-PAA/PHEA) with different grafting rates are prepared by solution method grafting polymer with polyacrylamide as the main chain, acrylic acid (AA) and 2-hydroxyethyl acrylate (HEA) as the modified monomers. Evidence of graft polymerization of AA and HEA on polyacrylamide side chains is obtained by FT-IR and 1HNMR. Scanning electron microscopy and thermogravimetric characterization further confirm the synthesis of grafted polymers. The properties of the grafting polymer are evaluated using grafting rate, viscosity, and surface tension measurements. The performance of polymer aqueous solution as an aerosol fixative for capturing and removing tellurium aerosol as a simulated polonium aerosol is examined. According to the results, grafting two monomers, acrylic acid, and 2-hydroxyethyl acrylate, effectively improve the cross-sectional structure of the polymer, increase the thermal stability of the polymer, and reduced the surface tension of the aqueous polymer solution to 42.47 mN/m. In addition, aerosol settling and fixation experiments showed that PAM-g-PAA/PHEA had a trapping and scavenging effect on tellurium aerosols with an immobilization rate of 94.86%, which revealed the immobilization mechanism of the immobilizer with tellurium aerosols.