Technology for producing neutron-sensitive plastic scintillators
Purpose. To create large-size neutron-sensitive plastic scintillators with high long-term stability and with a sufficient quality indicator – n/γ-separation parameter…
Innovative technology for recycling construction waste at the point of origin
Purpose. It is designed for recycling waste (various types of sheet or profile glass, plasterboard, tiles and ceramics, building bricks,…
Technology of production of functional sausage products using by-products of oilseed processing
Purpose. To expand the range of sausage products with a combined composition of raw materials using dietary fiber with functional…
Technology of pig breeding using biologically active additives with chelated microelements in the diet
Purpose. Development of an optimized technology for growing young pigs using biologically active additives with chelated microelements in feeding for…
Technology of convective-vibrational drying of walnuts
Purpose. Development of convective-vibratory equipment for the implementation of an energy-efficient process for drying walnuts to ensure the standard quality…
Technology of formation of highly productive dairy-oriented herd by improving phenotypic indicators of cows of foreign and domestic selection
Purpose. Development of substantiated methods for assessing the influence of phenotypic factors on the formation of a highly productive herd…
Technology for the production of plastic scintillators, detectors or scintillation assemblies based on polystyrene obtained by block polymerization in aluminum ampoules with partitions
Purpose. The technology allows to obtain several scintillation blanks with the required mechanical and scintillation characteristics at once. Technical properties….
Technology for the production of highly efficient zinc selenide (ZNSE) crystal scintillators for ionizing radiation detectors
Purpose. The technology improves scintillation characteristics and reduces unit costs in the manufacture of highly efficient zinc selenide crystal scintillators….
Technology for growing scintillation single crystals of cesium iodide activated by sodium iodide in ROST-type installations
Purpose. The technology allows growing large-sized high-quality single crystals, which significantly reduces the cost of production (detectors) compared to the…
Technology for producing scintillation single crystals of bismuth germanate
Purpose. Bi4Ge3O12 single crystals are used to produce sensitive elements for ionizing radiation detection devices. Technical properties. The technology for…