[en] Because of their amorphous structure, glasses are particularly suitable for the solidification of the mixture of high-level radioactive wastes resulting from reactor fuel reprocessing: they are not sensitive to variations in the compositions of waste oxides and are resistant to the damaging effects of radiation. The borosilicate glasses used for this purpose have been investigated for about 25 years, and waste vitrification techniques have been tested on a commercial scale. In view of possible accidents in a final waste repository, the chemical resistance of this type of glasses to attack by groundwaters is of special interest. The present report deals with the corrosion behaviour of glasses and discusses the most significant controlling parameters. The dissolution rates needed for safety analysis must be determined in relatively short-term experiments. Since the results can depend strongly on the type of test procedures used, a critical assessment of these techniques is necessary. Experimental results are illustrated by means of selected examples. Particular emphasis is placed upon the effects of increased temperatures and of nuclear radiation. The models which have been proposed for the estimation of the long-term behavior of vitrified waste are not yet fully complete and require improvement. Furthermore, the actual dissolution rates which are used in such models should be revised: to be desired are values which take into account the actual environmental conditions at the storage site. It should be noted, however, that even with current conservative input data on corrosion rates, a lifetime on the order of 10₅ years can be expected for the glass blocks to be deposited. The report concludes with recommendations fo further investigations