Recycling of waste printed circuit boards into ion exchange resin

Abstract: Recycling the nonmetal components of waste printed circuit boards (WPCBs), mainly thermosetting epoxy resins (TEPRs), is quite difficult because they are insoluble and inflexible. We report a new method to convert TEPRs into ion exchange resin by treatment with sulphuric acid and the equilibrium ion exchange capacity (IEC) of the produced sample is 1.63 meq g À1 . FTIR indicated that TEPRs were modified by sulphuric acid and X-ray photoelectron spectroscopy (XPS) verified that sulfonic acid group (-SO 3 À ) wa… Show more

“…It is known that ion exchange resins based on polystyrene are based on the functional groups introduced to the phenyl rings and the successful preparation of a cation exchange resin by introduction of sulfonic acid groups to TEPRs has previously been reported. 15 However the highly acidic environment will result in new pollution and degradation of C-O-C to reduce its performance. Therefore, a new method of recycling the TEPRs into anion exchange resins through chloromethylation and quaternary ammonium is studied.…”

Preparation of anion exchange resin by recycling of waste printed circuit boards

“…It is known that ion exchange resins based on polystyrene are based on the functional groups introduced to the phenyl rings and the successful preparation of a cation exchange resin by introduction of sulfonic acid groups to TEPRs has previously been reported. 15 However the highly acidic environment will result in new pollution and degradation of C-O-C to reduce its performance. Therefore, a new method of recycling the TEPRs into anion exchange resins through chloromethylation and quaternary ammonium is studied.…”

Preparation of anion exchange resin by recycling of waste printed circuit boards

Copper Extraction from Flue Dust of Electronic Waste by Electrowinning and Ion Exchange Process

Recovery of silver from waste printed circuit boards (WPCBs) through hydrometallurgical route: A review