El-Alaily N.A.Abou-Hussein E.M.Abdel-Monem Y.K.Abd Elaziz T.D.Ezz-Eldin F.M.National Center for Radiation Research and TechnologyP.O. Box 29Nasr CityCairo 11765Egypt; Faculty of ScienceEl-Mounofia UniversityEl-MounofiaEgypt; October University for Modern Sciences and Arts (MSA)6th October CityEgypt2020-01-092020-01-0920142365731https://doi.org/10.1007/s10967-013-2778-2https://link.springer.com/article/10.1007/s10967-013-2778-2ScopusPreparing glass to be used as a radioactive waste immobilizer from municipal waste is the aim of this paper. Up to 90 wt% of municipal waste was obtained by burning the raw waste at 700 C for 5 h; this were successfully vitrified into borosilicate and sodium borate glasses at ~1,200 C. The long term behavior of such glass is one of the most important factors, which is determined by their durability in aqueous solution. Experimental durability data of the prepared glass immersed in ground water together with ?-irradiation was found to be affected according to the different irradiation doses. In addition, thermal analysis and glass surface morphology were investigated. The evolution of the damage on the studied properties was correlated to the changes in the glass network depending on their composition and irradiation dose. The results showed that glass matrix containing higher amount of municipal waste possess high durability and low thermal expansion after being gamma irradiated. The results showed that glass containing higher amount of municipal waste possess high durability and low thermal expansion after irradiation. 2013 Akad miai Kiad, Budapest, Hungary.EnglishCorrosionGlassesRadiationRecyclingborate sodiumborosilicateglasssilicateunclassified drugaqueous solutionarticlechemical compositioncorrosiongamma irradiationmunicipal solid wastenuclear wasteradiation doseradioactive wastesurface propertythermal analysisvitrificationwaste managementArticlehttps://doi.org/10.1007/s10967-013-2778-2