Add to ORKGTi-V-based body-centered cubic (BCC) alloys have potential for large-scale hydrogen storage if expensive vanadium is substituted with much cheaper Fe-containing ferrovanadium. Use of ferrovanadium reduces the alloys’ hydrogen storage capacity. This is puzzling since the amount of Fe is low and hydrogen atoms are accommodated in interstitial sites which are partly coordinated by Fe in many intermetallic compounds. The present work is aimed at finding a structural explanation for Fe-induced capacity loss in Ti-V alloys. Since such alloys and their hydrides are highly disordered without long-range occupational order of the different metal species, it was necessary to employ a technique which is sensitive to local structure. Neutron total scatt...
cited By 5The insertion of hydrogen in V and Fe has been investigated by means of pseudopotential DF...
We have investigated the structure and hydrogen storage properties of a series of Ti, V, Zr, Nb and ...
Ti and its alloys have a high affinity for hydrogen and are typical hydride formers. Ti-hydride are ...
Ti-V-based body-centered cubic (BCC) alloys have potential for large-scale hydrogen storage if expen...
Ti-V-based metal hydrides have decent overall performance as hydrogen storage materials, but V is ex...
The influence of iron on the crystalline structure and hydrogen sorption properties of a metal hydrid...
The volumetric hydrogen density of 160 kg H/m 3 in TiVCrNbH 8 is among the highest for interstitial ...
Reduction in reversible hydrogen storage capacity with increasing hydrogenation and dehydrogenation ...
Many of the materials properties of high-entropy alloys (HEAs), like increased hardness, reduced the...
We report here the effect on hydrogen sorption behavior of replacing vanadium by ferrovanadium (FeV)...
We report here the effect on hydrogen sorption behavior of replacing vanadium by ferrovanadium (FeV)...
cited By 7The structural and electronic properties of dimers, bulk, and alloys of Fe and V upon load...
Samples of vapour deposited FeTi and electrochemically loaded with hydrogen from LiOH solution have ...
In this paper, we report the effect of adding Zr + V or Zr + V + Mn to TiFe alloy on microstructure ...
Cette thèse s'inscrit dans la thématique du stockage de l'hydrogène sous forme d'hydrure métallique....
cited By 5The insertion of hydrogen in V and Fe has been investigated by means of pseudopotential DF...
We have investigated the structure and hydrogen storage properties of a series of Ti, V, Zr, Nb and ...
Ti and its alloys have a high affinity for hydrogen and are typical hydride formers. Ti-hydride are ...
Ti-V-based body-centered cubic (BCC) alloys have potential for large-scale hydrogen storage if expen...
Ti-V-based metal hydrides have decent overall performance as hydrogen storage materials, but V is ex...
The influence of iron on the crystalline structure and hydrogen sorption properties of a metal hydrid...
The volumetric hydrogen density of 160 kg H/m 3 in TiVCrNbH 8 is among the highest for interstitial ...
Reduction in reversible hydrogen storage capacity with increasing hydrogenation and dehydrogenation ...
Many of the materials properties of high-entropy alloys (HEAs), like increased hardness, reduced the...
We report here the effect on hydrogen sorption behavior of replacing vanadium by ferrovanadium (FeV)...
We report here the effect on hydrogen sorption behavior of replacing vanadium by ferrovanadium (FeV)...
cited By 7The structural and electronic properties of dimers, bulk, and alloys of Fe and V upon load...
Samples of vapour deposited FeTi and electrochemically loaded with hydrogen from LiOH solution have ...
In this paper, we report the effect of adding Zr + V or Zr + V + Mn to TiFe alloy on microstructure ...
Cette thèse s'inscrit dans la thématique du stockage de l'hydrogène sous forme d'hydrure métallique....
cited By 5The insertion of hydrogen in V and Fe has been investigated by means of pseudopotential DF...
We have investigated the structure and hydrogen storage properties of a series of Ti, V, Zr, Nb and ...
Ti and its alloys have a high affinity for hydrogen and are typical hydride formers. Ti-hydride are ...