Abstract
A corrosion monitoring program was set up in a scale demonstration glass melter system to evaluate the performance of materials selected for use in the Defense Waste Processing Facility (DWPF) at the DOE's Savannah River Site. The system is a 1/10 scale prototypic version of the DWPF. In DWPF, high-activity radioactive waste will be vitrified and encapsulated for long-term storage. During this study, twenty-six different alloys, including DWPF reference materials of construction and alternate higher alloy materials, were subjected to process conditions and environments characteristic of the DWPF except for radioactivity. The materials were exposed to low pH, elevated temperature (to 1200°C) environments containing abrasive slurries, molten glass, mercury, halides, and sulfides. General corrosion rates, pitting susceptibility, and stress corrosion cracking of the materials were investigated. Extensive data were obtained for many of the reference materials. Corrosion losses in the Feed Preparation System were minimal, whereas coupons from the Quencher Inlet region of the Melter Off-Gas System did experience localized attack
