Add to ORKGTiFe in the hydrogen storage materialof Titanium system has been studied by many people lately. Inconvenience has been experienced by users of TiFe because high temperature and pressure are needed by the activation process of this alloy. A lot of people have been studying alloys of ternary and q...10671-67
The goal of this study was to optimize the activation behaviour of hydrogen storage alloy TiFe. We f...
The aim of this investigation was to improve the first hydrogenation of TiFe by adding yttrium. The ...
In the present work, nanostructured FeTi powders were produced by mechanical alloying, avoiding the ...
Hydrogen has been considered as a potential candidate for the replacement of fossil fuels in future ...
TiNi alloy is polymorphic. It exhibits a martensitic transition near room temperature between a cubi...
The effect of hydrogen on temperature dependence of critical stress σcr(T), the shape memory effect ...
This study aims to clarify the influence of the Spark Plasma Sintering (SPS) method on structural mo...
In this paper, the effects of doping, cold rolling and forging on the microstructure and hydrogen st...
In this paper, we report the first hydrogenation (activation) of a 1.2Ti-0.8Fe alloy synthesized by ...
In this paper, we report the effect of adding Zr + V or Zr + V + Mn to TiFe alloy on microstructure ...
39 pages, 9 figure, 4 tables, 3 supplementary figuresInternational audienceTiFe intermetallic compou...
International audienceMechanical alloying is widely used for the synthesis of hydrogen storage mater...
International audienceHydrogen solid storage in intermetallic compounds has attracted great attentio...
Titanium iron (TiFe) alloy is a room-temperature hydrogen-storage material, and it absorbs hydrogen ...
TiFe intermetallic compound has been extensively studied, owing to its low cost, good volumetric hyd...
The goal of this study was to optimize the activation behaviour of hydrogen storage alloy TiFe. We f...
The aim of this investigation was to improve the first hydrogenation of TiFe by adding yttrium. The ...
In the present work, nanostructured FeTi powders were produced by mechanical alloying, avoiding the ...
Hydrogen has been considered as a potential candidate for the replacement of fossil fuels in future ...
TiNi alloy is polymorphic. It exhibits a martensitic transition near room temperature between a cubi...
The effect of hydrogen on temperature dependence of critical stress σcr(T), the shape memory effect ...
This study aims to clarify the influence of the Spark Plasma Sintering (SPS) method on structural mo...
In this paper, the effects of doping, cold rolling and forging on the microstructure and hydrogen st...
In this paper, we report the first hydrogenation (activation) of a 1.2Ti-0.8Fe alloy synthesized by ...
In this paper, we report the effect of adding Zr + V or Zr + V + Mn to TiFe alloy on microstructure ...
39 pages, 9 figure, 4 tables, 3 supplementary figuresInternational audienceTiFe intermetallic compou...
International audienceMechanical alloying is widely used for the synthesis of hydrogen storage mater...
International audienceHydrogen solid storage in intermetallic compounds has attracted great attentio...
Titanium iron (TiFe) alloy is a room-temperature hydrogen-storage material, and it absorbs hydrogen ...
TiFe intermetallic compound has been extensively studied, owing to its low cost, good volumetric hyd...
The goal of this study was to optimize the activation behaviour of hydrogen storage alloy TiFe. We f...
The aim of this investigation was to improve the first hydrogenation of TiFe by adding yttrium. The ...
In the present work, nanostructured FeTi powders were produced by mechanical alloying, avoiding the ...