AB5 metal hydride (MH) particles were polymer dispersed in order to entrap the micro and nanoparticles produced by repeated fragmentations of the metal phase during the hydrogen charging/discharging cycles. Acrylonitrile-buta diene-styrene copolymer (ABS) was selected as a matrix on the basis of its physical and chemical properties. AB5/ABS composite pellets were obtained by using a dry mechanical particle coating approach in a tumbling-mill apparatus and successive consolidation by uniaxial hot pressing. A number of characterization techniques were used to assess the morphological, chemical and structural properties of the composites. High pressure DSC measurements, conducted at different pressure values, were used to assess the H(2) absorption properties and profile the Van't Hoff plots of the material. The overall results indicated that the AB5/ABS composite well tolerated the hydriding effects on metal particles, with no losses in hydriding kinetics. The material characteristics were found to be compatible with its application in developing MH-based H(2) storage devices. (c) 2008 International Association for Hydrogen Energy. Published by Elsevier Ltd. All rights reserved.
Marzia, P., Franco, P., Luciano, P., Enrico, I., Matricardi, P. (2009). AB5/ABS composite material for hydrogen storage. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 34(10), 4592-4596 [10.1016/j.ijhydene.2008.10.013].
AB5/ABS composite material for hydrogen storage
MATRICARDI, PIETRO
2009-01-01
Abstract
AB5 metal hydride (MH) particles were polymer dispersed in order to entrap the micro and nanoparticles produced by repeated fragmentations of the metal phase during the hydrogen charging/discharging cycles. Acrylonitrile-buta diene-styrene copolymer (ABS) was selected as a matrix on the basis of its physical and chemical properties. AB5/ABS composite pellets were obtained by using a dry mechanical particle coating approach in a tumbling-mill apparatus and successive consolidation by uniaxial hot pressing. A number of characterization techniques were used to assess the morphological, chemical and structural properties of the composites. High pressure DSC measurements, conducted at different pressure values, were used to assess the H(2) absorption properties and profile the Van't Hoff plots of the material. The overall results indicated that the AB5/ABS composite well tolerated the hydriding effects on metal particles, with no losses in hydriding kinetics. The material characteristics were found to be compatible with its application in developing MH-based H(2) storage devices. (c) 2008 International Association for Hydrogen Energy. Published by Elsevier Ltd. All rights reserved.| File | Dimensione | Formato | |
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