http://dspace.nbuv.gov.ua:80/handle/123456789/132611 2026-04-05T22:53:58Z http://dspace.nbuv.gov.ua:80/handle/123456789/135003 Процессы самоорганизации и седиментационная устойчивость суспензий детонационных наноалмазов Возняковский, А.П.; Качальников, А.Ю.; Агибалова, Л.В. The questions of preparing and stabilization of suspensions of detonation nanodiamonds from theirs dry powder (secondary suspension) were investigated. 2006-01-01T00:00:00Z http://dspace.nbuv.gov.ua:80/handle/123456789/135002 Вакуумная деазотация металлов – растворителей для синтеза алмаза Поздняков, А.А.; Бугаков, В.И.; Полушин, Н.И.; Давыдов, В.В. Methods of the vacuum denitration of solvent metals (Ni, Fe), used in the diamond synthesis, are suggested in the work. It has been experimentally determined that the given methods of the purification of Ni and Fe make it possible to reduce the concentration of nitrogen in metals up to 0,0002% mass. 2006-01-01T00:00:00Z http://dspace.nbuv.gov.ua:80/handle/123456789/134995 Структурно-фазовые превращения при формировании алмазного вольфрамсодержащего композита при высоких давлении и температуре Быков, А.И.; Тимофеева, И.И.; Олейник, Г.С.; Пасичный, В.В.; Остапенко, В.С. The results of research by the methods of X-ray and electronic microscopy analysis of transformations are presented for powder composition (UDD +WO₃) at pre-annealing in the environment of hydrogen in an interval 700-900 °С, and also at Р=7,7 GPa, Т=1400 = 1700 °С sintering of composition after annealing. It is rotined that in the environment of hydrogen reduction of WO₃ passes through the stages of forming of dioxide and tungsten oxicarbide, and then formation of tungsten carbides (W₂С and WС). At sintering of composition after hydrogen treatment the dispersion of carbides particles passes, and at Т = 1600 °С transformation of diamond → graphite passes in surroundings of such particles. 2006-01-01T00:00:00Z http://dspace.nbuv.gov.ua:80/handle/123456789/134992 Получение и моделирование сверхтвердой фазы из фуллеренов в металлической матрице Черногорова, О.П.; Дроздова, Е.И.; Бульенков, Н.А. The synthesis of superhard phases (SHP) from fullerenes С₆₀+С₇₀ mixed with metal powders occurs at a relatively low pressure (3-5 GPa) and allows one to obtain large SHP particles (up to 0.5 mm) with a rather perfect aperiodic structure. The examination of the SHP structure by highresolution electron microscopy showed the presence of locally ordered zones with a pseudohexagonal structure, although these particles are X-ray amorphous. Such structure can be considered as the nanocomposite formed by the zones of almost crystalline structure (approximants) with the intermediate regions of less ordered structure. The structures of such crystalline approximants were modeled by the method of modular design. A version of such approximants has a hexagonal lattice, and all С₆₀ molecules are joined by sp³ bonds only along the fivefold symmetry axes. 2006-01-01T00:00:00Z