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Information × Registration Number 0216U006606, 0113U005693 , R & D reports Title Physical launching an new experimental stand of beam-radiation impact on materials of nuclear and fusion energy popup.stage_title Head Makhlai Vadym Oleksandrovych, Кандидат фізико-математичних наук Registration Date 12-04-2016 Organization National Science Center "Kharkiv Institute of Physics and Technology popup.description2 The physical launch of all components of the new experimental stand QSPA-M, which has been designed and built based on the proposed concept of a new generation of quasi-steady plasma accelerator was carried out. Experimental stand includes a plasma accelerator comprising an accelerating channel with system feeding the working substance, the solenoid axial magnetic field, as well as systems of energy supply and management. Preliminary accordance of the work of all components of the new experimental stand was performed. At the discharge current of 300 kA in the accelerating channel, plasma accelerator generated plasma streams with velocity up to 200 km / s, the maximum energy density in plasma up to 1 MJ / m2 and a duration of generation of 0.1ms. Injection of plasma flows, generated by the new accelerator, into an external increasing longitudinal magnetic field of 1.5 T was fulfilled. The first experiments on the modification of quasicrystalline materials (Ti41.5Zr41.5Ni17) were performed. Such quasicrystalline materials can be used as hydrogen storage in hydrogen energy. It is shown that the temperature gradient in surface layer modified by plasma is the main factor that determines the formation of quasicrystalline structure. It should be noted that to obtain plasma flows with parameters close to the maximum calculated for such systems, as well as for the possibility of varying the magnitude of the energy density in the stream without significantly changing the length of the plasma flow, it is necessary to fulfill comprehensive studies of the plasma flow in the accelerating channel and transportation of plasma in the external a magnetic field. It will possible to obtain powerful magnetized plasma streams for further use in model experiments that reproduce the conditions of the reactor of thermonuclear synthesis and testing of advanced materials and nuclear fusion energy. Product Description popup.authors Є.І. Колосенко Є.В. Сюсько І.Є. Гаркуша І.В. Рижков А.Є. Кулага А.Г. Резніченко А.К. Марченко А.Н.Шевченко А.С. Кальченко Б.О. Шевчук В.В. Стальцов В.В. Чеботарьов В.В. Яковлєва В.Г. Котенко В.М. Бондаренко В.О. Басаргін В.О. Белецький В.О. Махлай В.С. Таран Д.В. Єлісеєв Д.В. Березов Д.Г. Соляков Л.К. Ткаченко М.В. Гніденко М.В. Заманов М.В. Лимар М.В.Кулик М.М. Аксьонов М.С. Ладигіна М.С. Ладигіна О.В. Бирка О.В. Скорина О.О. Скорик П.Б. Шевчук С.І. Лебедєв С.А. Трубчанінов С.С. Геращенко Т.М. Чередниченко Ф.І. Ожерельєв Ю.Е. Купріянова Ю.С. Кулик popup.nrat_date 2020-04-02 Close