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Study of Radiation-Induced Damage Processes in CeZrO 4 -YZrO 3 Ceramics Caused by Helium Irradiation.

Artem L KozlovskiyDaryn B BorgekovMaxim V ZdorovetsKayrat K KadyrzhanovDmitriy I Shlimas
Published in: Materials (Basel, Switzerland) (2022)
Composite oxide ceramics CeZrO 4 -YZrO 3 obtained by mechanochemical synthesis were chosen as objects of study. The most dangerous type of radiation defect in structural materials is associated with helium accumulation in the structure of the near-surface layer. This can lead to the destruction and swelling of the material, resulting in a decrease in its strength and thermal characteristics. During the studies, it was found that the most significant structural changes (deformation of the crystal lattice, the magnitude of microdistortions of the crystal lattice) are observed with irradiation fluence above 5×10 16 ion/cm 2 , while the nature of the changes is exponential. X-ray diffraction analysis found that the nature of the crystal structure deformation has a pronounced type of stretching due to the accumulation of implanted helium and its subsequent agglomeration. A comparative analysis with data on microdistortions of the crystal lattice and the values of microhardness and softening of ZrO 2 and CeO 2 showed that two-phase ceramics of the cubic type CeZrO 4 -YZrO 3 are more resistant to radiation-induced degradation than single-phase ZrO 2 and CeO 2 . Results of strength and thermophysical characteristics showed that the presence of two phases increases resistance to destruction and disorder, leading to a decrease in strength and thermal conductivity.
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