Proposed NRC criteria for disposal of high-level nuclear waste require development of waste packages to contain radionuclides for at least 1000 years, and design of repositories to prevent radionuclide release at an annual rate greater than 1 part in 100 000 of the total activity. The high-level wastes that are now temporarily stored as aqueous salts, sludges, and calcines must be converted to high-integrity solid forms that resist deterioration from radiation and other effects of long-term storage. Spent fuel may be encapsulated for similar long-term storage. Candidate waste forms beside the spent fuel elements themselves, include borosilicate and related glasses, mineral-like crystalline ceramics, concrete formulations, and metal-matrix glass or ceramic composites. These waste forms will sustain damage produced by beta-gamma radiation up to 1012 rads, by alpha radiation up to Iol9 particles/g, by internal helium generation greater than about 0.1 atom percent, and by the atom transmutations accompanying radioactive decay. Current data indicate that under these conditions the glass forms suffer only minor volume changes, stored energy deposition, and leachability effects. The crystalline ceramics appear susceptible to the potentially more severe alterations accompanying metamictization and natural analogs of candidate materials are being examined to establish their suitability as waste forms. Helium concentrations in the waste forms are generally below thresholds for severe dama~e in either glass or crystalline ceramics at low temperatures, but microstructural effects are not well characterized. Transmutation effects remain to be established. • SIGNIFICANCE OF RADIATION EFFECTS IN SOLID RADIOACTIVE WASTE