Add to ORKGThe Zr2(Co0.5Fe0.2Ni0.2V0.1) intermetallic alloy was prepared by arc melting method and its physical properties and hydrogen storage performance were investigated. XRD analysis by Rietveld refinement and Mössbauer spectroscopy measurements revealed a multiphase crystal structure, in which the dominant phases are C16 Laves phase. The hydrogen-induced cracks, chemical composition, and elements distribution were analyzed by SEM and EDX mapping. The optimum conditions for the activation process, hydrogen absorption kinetics, cyclic durability performance, and disproportionation behavior were discussed. Zr2(Co0.5Fe0.2Ni0.2V0.1) alloy has a high absorption kinetic rate, with an activation energy of 10.11 kJ/mol, high hydrogen capacity (2.1 wt%) a...
The demand for efficient and clean fuel alternatives has been increasing in recent years and is expe...
The effects of addition of Zr, Ni and Zr7Ni10 on the crystal structure, microstructure and hydrogen ...
Zirconium-alloys such as ZrNi and ZrCo have been developed so far as promising materials for storage...
As a hydrogen storage material, Zr2Fe alloy has many advantages such as fast hydrogen absorption spe...
A literature search has revealed that AB(,2)-type intermetallic compounds exhibit desirable hydrogen...
Zr2Fe alloys have been widely used in fusion energy and hydrogen energy for hydrogen storage. Howeve...
The hydrides of zirconium based pseudobinary alloys Zr(Co1−xTx)2, (T = Fe, V or Cr) and Zr1−xRxCo2 (...
The hydrogen absorption and desorption properties of the amorphous Zr_Ni_T_ (TM=Ti, V, Cr, Mn and Fe...
Zr3Fe and Ni-substituted Zr3Fe alloys with 30 and 50 at.% Ni were synthesized and their hydrogen abs...
Hydrogen induced disproportionation and reproportionation of the metallic compounds, Zr2Fe, Zr2Co, Z...
The hydrides of zirconium based pseudobinary alloys Zr(Co1-xTx)2, (T = Fe, V or Cr) and Zr1-xRxCo2 (...
The (Ti0.85Zr0.15)1.05Mn1.2Cr0.6V0.1M0.1 (M=Ni, Fe, Cu) alloys with a single C14-type Laves phase ha...
The combination of unstable hydrogen storage materials with a high pressure tank provides a potentia...
Hydrogen storage properties of the Ti1.1CrMn AB2-type Laves phase alloys, for both low (-30 °C) and ...
Hydrogen absorption properties of Ti0.8Zr0.2Mn1.5M0.5 alloys have been investigated. The M represent...
The demand for efficient and clean fuel alternatives has been increasing in recent years and is expe...
The effects of addition of Zr, Ni and Zr7Ni10 on the crystal structure, microstructure and hydrogen ...
Zirconium-alloys such as ZrNi and ZrCo have been developed so far as promising materials for storage...
As a hydrogen storage material, Zr2Fe alloy has many advantages such as fast hydrogen absorption spe...
A literature search has revealed that AB(,2)-type intermetallic compounds exhibit desirable hydrogen...
Zr2Fe alloys have been widely used in fusion energy and hydrogen energy for hydrogen storage. Howeve...
The hydrides of zirconium based pseudobinary alloys Zr(Co1−xTx)2, (T = Fe, V or Cr) and Zr1−xRxCo2 (...
The hydrogen absorption and desorption properties of the amorphous Zr_Ni_T_ (TM=Ti, V, Cr, Mn and Fe...
Zr3Fe and Ni-substituted Zr3Fe alloys with 30 and 50 at.% Ni were synthesized and their hydrogen abs...
Hydrogen induced disproportionation and reproportionation of the metallic compounds, Zr2Fe, Zr2Co, Z...
The hydrides of zirconium based pseudobinary alloys Zr(Co1-xTx)2, (T = Fe, V or Cr) and Zr1-xRxCo2 (...
The (Ti0.85Zr0.15)1.05Mn1.2Cr0.6V0.1M0.1 (M=Ni, Fe, Cu) alloys with a single C14-type Laves phase ha...
The combination of unstable hydrogen storage materials with a high pressure tank provides a potentia...
Hydrogen storage properties of the Ti1.1CrMn AB2-type Laves phase alloys, for both low (-30 °C) and ...
Hydrogen absorption properties of Ti0.8Zr0.2Mn1.5M0.5 alloys have been investigated. The M represent...
The demand for efficient and clean fuel alternatives has been increasing in recent years and is expe...
The effects of addition of Zr, Ni and Zr7Ni10 on the crystal structure, microstructure and hydrogen ...
Zirconium-alloys such as ZrNi and ZrCo have been developed so far as promising materials for storage...