Properties of activated MgH2 + mischmetal nanostructured composite produced by ball-milling

• Main Authors: Mohammad Amin Rahmaninasab, Shahram Raygan, Hossein Abdizadeh, Mahdi Pourabdoli, Seyyed Hamed Mirghaderi
• Format: Article
• Language: English
• Published: SpringerOpen 2018-05-01
• Series: Materials for Renewable and Sustainable Energy
• Subjects: Magnesium hydride; Milling; Catalyst; Mischmetal; Hydrogen storage
• Online Access: http://link.springer.com/article/10.1007/s40243-018-0122-z

Abstract MgH2 + mischmetal nanostructured composite was synthesized from MgH2 plus 6 and 10 wt% of mischmetal by ball-milling at various times. XRD studies revealed that cerium hydride was produced during the milling in all samples. Sievert test results indicated that the samples containing 6 wt% of mischmetal showed a higher desorption compared with the ones containing 10 wt% of mischmetal. The high amount of cerium hydride in the samples may be the reason, while hydrogen desorption properties decreased by adding more catalyst. Furthermore, BET results showed that the addition of the catalyst to the samples resulted in agglomerate formation in shorter milling times. The agglomerate formation increased with adding more amounts of mischmetal, thus decreasing the hydrogen desorption properties of the composite. The best results were obtained from the 30 h-milled sample containing 6 wt% of catalyst. The on-set desorption temperature of this sample was 100 °C lower than that of as-received MgH2.