This work reports recent advances in characterization of the composition at submicron length scales of Al-based rapidly solidified alloys, which are correlated to their interactions with hydrogen. The hydrogen desorption kinetics and the evolution of the surface and subsurface structure and chemical state of high-purity Al, Al-1.0 at % Cr and Al-3.0 at % Cr alloy have been studied by thermal desorption analysis and scanning photoelectron microscopy. The alloy foil structure consisted of Cr-rich and Cr-depleted surface regions exhibits Cr segregation beneath the surface. The obtained results reveal how inclusions of aluminum oxide species can become very strong hydrogen traps at the highest temperatures of 600-630°C, representing irreversibl...
The paper reports the results of research on the effect of hydrogen penetration on the variations in...
The aim of the current study was to examine the structure of an alloy treated at various temperature...
Aluminum hydride (AlH3 or alane) is known to store maximum 10.1 wt.% of hydrogen at relatively low t...
This work reports recent advances in characterization of the composition at submicron length scales ...
Hydrogen desorption kinetics for rapidly solidified high purity Al and Al-Cr alloy foils containing ...
Structure and chemical composition of rapidly solidified (RS) Al-Cr alloys has been investigated for...
The nature of the corrosion-induced hydrogen trapping in Al-alloy 2024-T351 was studied by thermal d...
X-ray microtomography was used to observe hydrogen micropores and their growth behavior at high temp...
In the present study, combined thermal desorption spectroscopy (TDS), microtomography and X-ray diff...
The addition of Al to Mg has been indicated as a suitable way to destabilise the hydride phase, in o...
It is more difficult with aluminum alloys to investigate the effect of hydrogen on their mechanical ...
Depth profiling of elemental composition has been examined for rapidly solidified Al-Cr alloy foils ...
The microstructure and physicochemical properties of the surface of rapidly solidified Al–Cr alloys ...
The present paper focuses on the observed corrosion-induced embrittlement of alloy 2024 and tries to...
International audienceThe mechanical properties of powder metallurgy (P.M.) aluminium alloys may be ...
The paper reports the results of research on the effect of hydrogen penetration on the variations in...
The aim of the current study was to examine the structure of an alloy treated at various temperature...
Aluminum hydride (AlH3 or alane) is known to store maximum 10.1 wt.% of hydrogen at relatively low t...
This work reports recent advances in characterization of the composition at submicron length scales ...
Hydrogen desorption kinetics for rapidly solidified high purity Al and Al-Cr alloy foils containing ...
Structure and chemical composition of rapidly solidified (RS) Al-Cr alloys has been investigated for...
The nature of the corrosion-induced hydrogen trapping in Al-alloy 2024-T351 was studied by thermal d...
X-ray microtomography was used to observe hydrogen micropores and their growth behavior at high temp...
In the present study, combined thermal desorption spectroscopy (TDS), microtomography and X-ray diff...
The addition of Al to Mg has been indicated as a suitable way to destabilise the hydride phase, in o...
It is more difficult with aluminum alloys to investigate the effect of hydrogen on their mechanical ...
Depth profiling of elemental composition has been examined for rapidly solidified Al-Cr alloy foils ...
The microstructure and physicochemical properties of the surface of rapidly solidified Al–Cr alloys ...
The present paper focuses on the observed corrosion-induced embrittlement of alloy 2024 and tries to...
International audienceThe mechanical properties of powder metallurgy (P.M.) aluminium alloys may be ...
The paper reports the results of research on the effect of hydrogen penetration on the variations in...
The aim of the current study was to examine the structure of an alloy treated at various temperature...
Aluminum hydride (AlH3 or alane) is known to store maximum 10.1 wt.% of hydrogen at relatively low t...
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