Radiation Synthesis of High-Temperature Wide-Bandgap Ceramics.

This paper presents the results of ceramic synthesis in the field of a powerful flux of high-energy electrons on powder mixtures. The synthesis is carried out via the direct exposure of the radiation flux to a mixture with high speed (up to 10 g/s) and efficiency without the use of any methods or means for stimulation. These synthesis qualities provide the opportunity to optimize compositions and conditions in a short time while maintaining the purity of the ceramics.

The Optimization of Radiation Synthesis Modes for YAG:Ce Ceramics.

Synthesis in the radiation field is a promising direction for the development of materials transformation processes, especially those differing in melting temperature. It has been established that the synthesis of yttrium-aluminum ceramics from yttrium oxides and aluminum metals in the region of a powerful high-energy electron flux is realized in 1 s, without any manifestations that facilitate synthesis, with high productivity. It is assumed that the high rate and efficiency of synthesis are due to processes that are realized with the formation of radicals, short-lived defects formed during the decay of electronic excitations.

[Enzyme system of initiation and protection against lipid peroxidation in the liver and blood of rats with hypokinesia].

Content of lipid peroxidation products in liver mitochondria, enzymatic system of the peroxidation initiation (NADPH.H+- and NADH.H+-dependent oxydoreductases) at the early and final steps of liver microsomal redoxchain as well as the activity of protective enzymes superoxide dismutase, ceruloplasmin, catalase and glutathione reductase, preventing the excessive accumulation of lipid peroxidation products in liver mitochondria and erythrocytes were studied in rats with hypokinesia within 1 and 2 months.