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Radium sources yield cancer-fighting Ac-225 in IAEA program
The International Atomic Energy Agency has reported that, to date, 14 countries have made 14 transfers of disused radium to be recycled for use in advanced cancer treatments under the agency’s Global Radium-226 Management Initiative. Through this initiative, which was launched in 2021, legacy radium-226 from decades-old medical and industrial sources is used to produce actinium-225 radiopharmaceuticals, which have shown effectiveness in the treatment of patients with breast and prostate cancer and certain other cancers.
Henry H. Hatjsner, John L. Zambrow
Nuclear Science and Engineering | Volume 1 | Number 1 | March 1956 | Pages 92-101
Technical Paper | doi.org/10.13182/NSE56-A17661
Articles are hosted by Taylor and Francis Online.
Uranium powder can readily be prepared by hydriding solid uranium and by the decomposition of the hydride. The powder particles are of –325 mesh size. This powder compacts to density varying between 12 and 14 gm/cc. Sintering subsequent to compacting results in a material of high strength characterized by a slight porosity and coarse grain structure. Hot pressing uranium powder in the alpha temperature range at pressures of approximately 10 to 15 tsi results in a material of perfect density and a small grain structure. Hot compacting uranium powder is a process perfectly feasible for production.
