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Information × Registration Number 0215U003793, 0114U001630 , R & D reports Title Development and creation of technology growing low-temperature nanostructured silicon compounds and nanocrystalline materials with a low coefficient of thermal expansion and implementation of microelectronic sensors, optical components for aerospace instrumentation popup.stage_title Head Volodymyr Maslov, Registration Date 27-03-2015 Organization Institute of Semiconductor Physics of National Academy of Sciences of Ukrain popup.description2 Report on research "Development and creation of technology growing low-temperature nanostructured silicon compounds and nanocrystalline materials with a low coefficient of thermal expansion and implementation of microelectronic sensors, optical components for aerospace instrumentation": 65 p., 20 fig., 55 sources. Reasons for the job - GDR 'Development and creation of technology growing low-temperature nanostructured silicon compounds and nanocrystalline materials with a low coefficient of thermal expansion and implementation of microelectronic sensors, optical components for aerospace instrument "is performed according to the State Program development of sensor and high-tech products in the years 2008-2017, approved by the Cabinet of Ministers of Ukraine of 05.12.2007 № 1395 as part of scientific and technical project "Development and creation of metrology and certification of new knowledge based sensor products, multifunctional materials, sensors, biomultysensors, electronic devices, analytical instruments and Information Systems. "under the agreement of January 30, 2014 № 1.1.11 / 27. Objective: Development and creation of technology growing low-temperature nanostructured silicon compounds and nanocrystalline materials with a low coefficient of thermal expansion and implementation of microelectronic sensors, optical components for aerospace instrumentation. Formation in a glass matrix nanoscale crystalline particles with specific modes annealing crystallizing glass to create new materials with controllable functional properties, such as almost zero coefficient of thermal expansion and radioprozoristyu. These nanocrystalline multifunctional materials can be attributed to smart - composite materials required for manufacturing of optical telescopes in the manufacture of mirrors, prisms laser gyros and other precision parts. Radioprozorist such materials they can be used for fairing radio-controlled missiles. Topical area of ??research is to determine the physical and technological patterns of creation of such materials. Based on experimental studies will be developed first scientifically proven technology commercialize new multifunctional nanomaterials optical and aerospace special purpose. Sklokrystalichni materials with ultra-low coefficient of thermal expansion used in particular as fairing radio-controlled missiles and warplanes bow that protect radar equipment, and in the optical industry for the manufacture of mirrors and telescopes buildings laser gyroscopes. Now these materials are available in the Russian Federation, entitled "astrosital" (LZOS, NPP "Technology" Obynsk g), Germany called Zerodur (company Schott), the United States called ULE (firm Corning). The lack of domestic nanomaterials leads to dependence on them from. Thus, the development of domestic sklokrystalichnyh materials will expand the range of products of national defense plants (including KNVP "Kvarsyt"), to increase the reliability of radio-controlled missiles, which will increase the defense of the Ukrainian army. Scientific substantiation laws and invented innovative smart-functional materials ensure the competitiveness of Ukraine in the aerospace and opto-electronic industries. Research methods - optical non-destructive testing methods, and methods of system of general and comparative analysis. Results and innovation - scientific novelty of the results of the study is that first defined the technological regime and established the formation of ceramic materials with almost zero coefficient of thermal expansion Keywords: coefficient of thermal expansion glass ceramics.5481 Product Description popup.authors І.Л. Марічева А.І. Ліптуга А.В. Прохорович А.В. Самойлов В.І. Дунаєвський В.Й. Піпа В.О. Мороженко В.П. Кислий В.П. Маслов Г.В. Дорожинський Г.М. Андросюк З.К. Власенко К.М. Божко Л.В. Зубченко М.М. Дворніченко Н.В. Качур Н.О. Бурлака Н.Я. Гридіна О.Є. Соловйов О.М. Стрільчук О.О. Скляренко П.М. Литвин Р.В. Хрстосенко Т.П. Дорошенко Ю.В. Ушенін Ю.М. Євпов popup.nrat_date 2020-04-02 Close