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The aim of this work is to study the hydrogen storage properties of a composite based on magnesium and carbon nanotubes. To achieve this aim, it is necessary to study the kinetic and thermodynamic properties of the synthesized composite system using a special automated complex Gas Reaction Controller and to consider the mechanisms of hydrogen accumulation using scanning and transmission electron microscopy. In this work, we select grinding parameters in a planetary ball mill «AGO-2» as well as determine the optimal quantitative ratio of nanotubes in a composite for its synthesis and determine the main properties of the resulting composite system. |
