Tag: нові речовини і матеріали
A device for studying the physical and mechanical properties of materials using continuous indentation and scanning with an indenter
Purpose. The device is designed to measure microhardness, elasticity, creep, crack resistance, coating adhesion, scratch resistance and friction force of…
Wear-resistant powder composite alloy of the Co-tic system
Purpose. Wear-resistant composite alloys for brazing onto contact surfaces of shroud shelves of turbine blades of aircraft gas turbine engines…
Nanostructured composite materials
Purpose. Nanostructured composite materials based on calcium orthophosphates and natural polymers on titanium substrates are used to improve the biocompatibility…
Technology for growing europium-activated lithium iodide single crystals.
Purpose. The technology allows to obtain LiI:Eu2+ single crystals for detecting slow neutrons. Single crystals are used as a working…
Technology for producing cs2liycl6:ce single crystals
Purpose. To obtain Cs2LiYCl6:Ce (CLYC) single crystals used to detect slow neutrons. The technology allows obtaining single crystals for detecting…
Technology for obtaining anhydrous strontium iodide of special purity
Purpose. The technology is designed to produce high-purity strontium iodide from technical-grade raw materials as a component of highly efficient…
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…
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…
Technology for growing scintillation single crystals of sodium iodide activated by thallium iodide in “growth” 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 of deep purification of cesium iodide by the method of multiple low-temperature mixed crystallization
Purpose. The technology allows removing potassium and rubidium impurities from cesium iodide, thereby significantly reducing its own radiation background and…