2006 Help me understand this report
Microstructure, surface properties and hydrating behaviour of Mg–C composites prepared by ball milling with benzene
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Cited by 33 publications
(12 citation statements)
References 25 publications
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“…Meanwhile, the amount of MgO formed is apparently between 18.9 and 45.2 wt%. Similar MgO weight fractions had been frequently determined in a number of studies [18,35]. Let us remark that this drop in storage capacity is a frequent observation in the literature on Mg-based alloys [36e39].…”
Section: Effect Of Mgo On Hydrogen Storage Propertiessupporting
confidence: 77%
“…Meanwhile, the amount of MgO formed is apparently between 18.9 and 45.2 wt%. Similar MgO weight fractions had been frequently determined in a number of studies [18,35]. Let us remark that this drop in storage capacity is a frequent observation in the literature on Mg-based alloys [36e39].…”
Section: Effect Of Mgo On Hydrogen Storage Propertiessupporting
confidence: 77%
“…Magnesium or magnesium-containing materials (alloys and composites) are considered as a promising candidate due to high hydrogen storage capacity (e.g. MgH 2 : 7.6 wt.%; Mg 2 NiH 4 : 3.6 wt.%) [1][2][3][4][5]. However, these hydrides being thermodynamically very stable, a high operating temperature is required to obtain a significant hydrogen pressure for the desorption process.…”
Section: Introductionmentioning
confidence: 99%
“…В работе [16] наблюдалось увеличение скорости гидрирования после предварительной МА магния с активированным углем и углеродными нанотрубками, а в работе [17] получен противоположный результат. Было показано, что добав-ка циклогексана при МА композитов Mg/C улучшает водородаккумулирующие свойства [18], а добавка бензо-ла [19] или гептана [20] приводит к их ухудшению. В ра-боте [21] установлено, что полученные методом сухой МА механокомпозиты Mg/аморфный углерод в 2.8 раза быстрее поглощают водород, чем полученные аналогич-ным способом механокомпозиты Mg/графит.…”
Section: Introductionunclassified
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