Add to ORKGEnvironment sensitive failure, such as hydrogen embrittlement, of metallic alloys and particularly steels is a longstanding problem causing large annual economical loses. A deeper understanding of the individual mechanisms leading to the final material breakdown is highly demanded. Hydrogen can be incorporated into the material from different liquid or gas sources, during material processing or in operation conditions; the mechanisms leading to the material failure depend on the absorbed hydrogen interaction with trap binding sites or defects, as it is the case of dislocations. Please click Additional Files below to see the full abstract
In-situ electrochemical nanoindentation (ECNI) has been used to study the effect of hydrogen on the ...
The variations in the pop-in behavior of an equiatomic CoCrFeMnNi high-entropy alloy under different...
The demand for high strength materials is increasing in the modern industrial development. With more...
Hydrogen is a strong candidate to be the energy carrier of the future; however it also represents a ...
In-situ electrochemical nanoindentation was applied to study the effect of hydrogen on the mechanica...
The hydrogen effect on a X65 carbon steel was investigated using in-situ electrochemical nanoindenta...
International audienceHydrogen effects on dislocation nucleation in polycrystalline ferritic Fe-15Cr...
The recent interest in developing a hydrogen-based energy economy has put the need for hydrogen comp...
This thesis demonstrates a comprehensive study on the interaction between hydrogen and plasticity by...
The interaction between hydrogen and structural materials has been intensively studied for many year...
We have designed a new method for electrochemical hydrogen charging which allows us to charge very t...
Hydrogen embrittlement is shown to proceed through a previously unidentified mechanism. Upon ingress...
Hydrogen embrittlement is a complicated process hard to investigate due to the volatile nature of th...
The effects of hydrogen charging on the mechanical response of FCC Ni and Pd under nanoindentation a...
In-situ electrochemical nanoindentation (ECNI) has been used to study the effect of hydrogen on the ...
In-situ electrochemical nanoindentation (ECNI) has been used to study the effect of hydrogen on the ...
The variations in the pop-in behavior of an equiatomic CoCrFeMnNi high-entropy alloy under different...
The demand for high strength materials is increasing in the modern industrial development. With more...
Hydrogen is a strong candidate to be the energy carrier of the future; however it also represents a ...
In-situ electrochemical nanoindentation was applied to study the effect of hydrogen on the mechanica...
The hydrogen effect on a X65 carbon steel was investigated using in-situ electrochemical nanoindenta...
International audienceHydrogen effects on dislocation nucleation in polycrystalline ferritic Fe-15Cr...
The recent interest in developing a hydrogen-based energy economy has put the need for hydrogen comp...
This thesis demonstrates a comprehensive study on the interaction between hydrogen and plasticity by...
The interaction between hydrogen and structural materials has been intensively studied for many year...
We have designed a new method for electrochemical hydrogen charging which allows us to charge very t...
Hydrogen embrittlement is shown to proceed through a previously unidentified mechanism. Upon ingress...
Hydrogen embrittlement is a complicated process hard to investigate due to the volatile nature of th...
The effects of hydrogen charging on the mechanical response of FCC Ni and Pd under nanoindentation a...
In-situ electrochemical nanoindentation (ECNI) has been used to study the effect of hydrogen on the ...
In-situ electrochemical nanoindentation (ECNI) has been used to study the effect of hydrogen on the ...
The variations in the pop-in behavior of an equiatomic CoCrFeMnNi high-entropy alloy under different...
The demand for high strength materials is increasing in the modern industrial development. With more...