Add to ORKGA systematic investigation of the effects of hydrogen on fatigue crack growth retardation due to overload is presented. The effect of compressive stress ahead of the crack tip on modulating crack growth is discussed. The hydrogen concentration, through its influence on hydrogen availability ahead of the crack tip, is shown to influence crack growth rate recovery after overloads
In a martensitic-bainitic microalloyed steel, the effect of hydrogen on fatigue crack growth was stu...
The hydrogen effect on the fracture toughness and fatigue crack growth behaviour in themartensitic h...
The energy supply questions is becoming more and more urgent for all the world. As there is not one ...
Fatigue crack growth rate (FCGR) for an HSLA steel was studied with in-situ hydrogen charging. The e...
ABSTRACT. Hydrogen as an energy carrier and hydrogen applications, as fuel cells, are considered to ...
It is well known that ferrous materials can be damaged by absorption of hydrogen. If a sufficient qu...
The effects of large amounts of hydrogen on the fatigue crack growth properties of torsional prestr...
The decrease in fatigue resistance of an austenitic Fe-Mn-Al steel, due to presence of cathodically ...
The influence of hydrogen on low cycle fatigue (LCF) of 3.5NiCrMoV steel electrochemically hydrogen ...
AbstractThe influence of irreversible hydrogen on the fatigue crack growth in cold-drawn high-streng...
Fatigue crack growth (FCG) behaviour and its characteristics following tensile overloads were invest...
AbstractThe effects of hydrogen have been studied on low carbon steel (JIS S10C), which contains lim...
The influence of hydrogen on the mechanical properties of four, medium-strength, commercial, quenche...
The Interaction of hydrogen with retained austenite under fatigue loading of dual-phase and complex-...
In this paper, the attention is focused on the mechanical fatigue behavior of high strength steels s...
In a martensitic-bainitic microalloyed steel, the effect of hydrogen on fatigue crack growth was stu...
The hydrogen effect on the fracture toughness and fatigue crack growth behaviour in themartensitic h...
The energy supply questions is becoming more and more urgent for all the world. As there is not one ...
Fatigue crack growth rate (FCGR) for an HSLA steel was studied with in-situ hydrogen charging. The e...
ABSTRACT. Hydrogen as an energy carrier and hydrogen applications, as fuel cells, are considered to ...
It is well known that ferrous materials can be damaged by absorption of hydrogen. If a sufficient qu...
The effects of large amounts of hydrogen on the fatigue crack growth properties of torsional prestr...
The decrease in fatigue resistance of an austenitic Fe-Mn-Al steel, due to presence of cathodically ...
The influence of hydrogen on low cycle fatigue (LCF) of 3.5NiCrMoV steel electrochemically hydrogen ...
AbstractThe influence of irreversible hydrogen on the fatigue crack growth in cold-drawn high-streng...
Fatigue crack growth (FCG) behaviour and its characteristics following tensile overloads were invest...
AbstractThe effects of hydrogen have been studied on low carbon steel (JIS S10C), which contains lim...
The influence of hydrogen on the mechanical properties of four, medium-strength, commercial, quenche...
The Interaction of hydrogen with retained austenite under fatigue loading of dual-phase and complex-...
In this paper, the attention is focused on the mechanical fatigue behavior of high strength steels s...
In a martensitic-bainitic microalloyed steel, the effect of hydrogen on fatigue crack growth was stu...
The hydrogen effect on the fracture toughness and fatigue crack growth behaviour in themartensitic h...
The energy supply questions is becoming more and more urgent for all the world. As there is not one ...