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Information × Registration Number 0208U006475, 0108U007888 , R & D reports Title The influence of thermomechanical processing regimes on the radiation stability and the resources of steels, titanium alloys and other perspective materials for nuclear power engineering and radiation technologies popup.stage_title Head Galuza Oleksiy Anatolievich, Registration Date 08-12-2008 Organization Institute of electrophysics and radiation technologies NASU popup.description2 In this work some problems of researching methods to improve radiation stability of materials for nuclear energetic and radiation technologies were resolved. The aim was to study influence of chemicothermal surface processing on radiation stability of materials. Optical methods (ellipsometry, reflectometry, macrointerferometry etc.) were proved to be appropriate for investigation of initial degradation stages in materials that are being irradiated. Experimental techniques were renovated to fit them for diagnostics of metal and alloy samples which were processed by radiation procedure. Furthermore, experiments of alloy samples exposure to deuterium ions were performed. Chemicothermal surface processing was determined to have positive impact on radiation properties of materials. Titanium-based amorphous alloy, which is known to be challenging materials for nuclear power engineering and radiation technologies, was examined. Nitration was used for chemicothermal processing which was performed by means ofcoating technology. This work is the first step in systematic investigation of different modes of chemicothermal processing impact and on radiation stability of metals and alloys. Product Description popup.authors popup.nrat_date 2020-04-02 Close