Аннотации:
This work is devoted to the study of changes in the strength properties of AlN ceramics, in particular, the dry
friction coefficient and parameters of wear resistance and surface defectiveness, depending on the dose of
irradiation with heavy Xe22+ ions with an energy of 200 MeV. Interest in these ceramics is due to their high
thermal conductivity, hardness and wear resistance, as well as excellent insulating properties, which makes them
promising candidate materials in nuclear power, rocket engineering and microelectronics. At the same time, the
operation of these ceramics under conditions of external influences, such as mechanical friction, pressure on the
surface, as well as the effect of ionizing radiation, requires additional research and obtaining new data on the
stability and retention of properties during the entire service life. During the studies carried out, it was found that
at low irradiation doses of 1010
-1011 ions/cm2
, which are characterized by the formation of single point defects
and a low probability of surface degradation as a result of the initialization of gas swelling processes, the dry
friction coefficient practically does not change, which indicates ceramics high mechanical friction resistance.
However, an increase in the irradiation fluence up to 1012 ion/cm2
, which is characterized by the processes of
overlapping radiation-induced damaged areas, a deterioration in the dry friction coefficient is observed after
15000 test cycles, which indicates fatigue wear of the ceramic surface and degradation as a result of external
influences.
