Einsatz innovativer fügetechnologien und korrosionsschutzgerechter designs an 200-I-gebinden zur sicheren lagerung schwach- und mittelradioaktiver abfälle

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Authors

  • P. Hoyer
  • T. Hassel
  • C. Hübsch
  • C. Birr
  • M. Jendras
  • Fr W. Bach

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Translated title of the contributionUse of innovative joining techniques and anti-corrosive design of 200 I packages for safe storage of low and medium-level radioactive waste
Original languageGerman
Pages (from-to)553-558
Number of pages6
JournalATW - Internationale Zeitschrift fur Kernenergie
Volume56
Issue number10
Publication statusPublished - Oct 2011

Abstract

Increasingly stricter safety requirements and environmental regulations to be met in designing, manufacturing and coating of packages for storing low and medium-level radioactive waste, which are stable over long periods of time, cause more and more innovative joining techniques to be used and, at the same time, entail the optimization of anti-corrosive designs of such packages. Parallel efforts are under way to replace conventional paint systems based on epoxy resins and containing solvents, respectively, by water or silicone-based systems in order to achieve a reduction in VOC (volatile organic compound) emissions. The interaction of joining techniques, coatings, and inspection and feedback of specific inspection findings into the respective processes results in sustainable improvement in the guaranteed long-time stability and safety of packages. The article presents results of project 02S8487, "Design, Manufacture, Coating, Inspection and Handling of Packages Offering Long-term Stability for the Safe Storage of Low and Medium-level Radioactive Waste" funded by the German Federal Ministry for Education and Research (BMBF), carried out in a joint effort by the Institute of Materials Research of the Leibniz University of Hanover and Eisenwerk Bassum mbH and Farb- und Lackwerke Suding & Soeken GmbH & Co.KG.

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Einsatz innovativer fügetechnologien und korrosionsschutzgerechter designs an 200-I-gebinden zur sicheren lagerung schwach- und mittelradioaktiver abfälle. / Hoyer, P.; Hassel, T.; Hübsch, C. et al.
In: ATW - Internationale Zeitschrift fur Kernenergie, Vol. 56, No. 10, 10.2011, p. 553-558.

Research output: Contribution to journalArticleResearchpeer review

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abstract = "Increasingly stricter safety requirements and environmental regulations to be met in designing, manufacturing and coating of packages for storing low and medium-level radioactive waste, which are stable over long periods of time, cause more and more innovative joining techniques to be used and, at the same time, entail the optimization of anti-corrosive designs of such packages. Parallel efforts are under way to replace conventional paint systems based on epoxy resins and containing solvents, respectively, by water or silicone-based systems in order to achieve a reduction in VOC (volatile organic compound) emissions. The interaction of joining techniques, coatings, and inspection and feedback of specific inspection findings into the respective processes results in sustainable improvement in the guaranteed long-time stability and safety of packages. The article presents results of project 02S8487, {"}Design, Manufacture, Coating, Inspection and Handling of Packages Offering Long-term Stability for the Safe Storage of Low and Medium-level Radioactive Waste{"} funded by the German Federal Ministry for Education and Research (BMBF), carried out in a joint effort by the Institute of Materials Research of the Leibniz University of Hanover and Eisenwerk Bassum mbH and Farb- und Lackwerke Suding & Soeken GmbH & Co.KG.",
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