We have investigated magnetic properties for reactor pressure vessel model alloys with variable Cu con- tents, subjected to neutron irradiation up to a fluence of 9 × 10 19 n cm −2 . Unlike a monotonic increase of microhardness with neutron fluence, the major-loop coercivity decreases at a higher fluence and the decrease becomes larger for the alloy containing a higher amount of Cu. The measurements of first-order reversal curves (FORCs) for the high-Cu alloy show that the position of the FORC distribution peak shifts toward a lower coercivity just after neutron irradiation, followed by a slight increase, associated with the broadening along both the coercivity and interaction field axes. The results can be explained by the enhancement of magnet...
The reactor pressure vessel steel of a nuclear power plant is subjected to fast neutron induced embr...
The T91 grade and similar 9Cr tempered-martensitic steels (also known as ferritic-martensitic) are l...
We have studied by electron microscopy the copper-rich precipitates in an Fe-1.3wt%Cu model alloy ir...
We report results of measurements of first-order reversal curves (FORCs) for neutron irradiated reac...
The Cu-rich German martensitic/bainitic structural steel WB36 (15 NiCuMoNb 5, 1.6368) is in service ...
Mechanical and magnetic property changes due to neutron irradiation and heat treatment were investig...
A novel nondestructive method called magnetic adaptive testing has been previously applied to detect...
Development of nondestructive evaluation (NDE) techniques for neutron irradiation embrittlement of r...
Magnetic minor hysteresis loops of low carbon steel and Fe metal have been measured during neutron r...
International audiencePressure vessel steels used in PWRs are known to be prone to hardening and emb...
Nondestructive magnetic measurement methods can be successfully applied to determine the embrittleme...
The results of long term research programme concerning the determination of irradiation embrittlemen...
Reactor pressure vessel steel welds are affected by irradiation during operation. The irradiation re...
Since reactor pressure vessel steels are ferromagnetic, provide a convenient means to monitor change...
The neutron irradiation of Fe-based fusion and fission reactor materials leads to an increase in duc...
The reactor pressure vessel steel of a nuclear power plant is subjected to fast neutron induced embr...
The T91 grade and similar 9Cr tempered-martensitic steels (also known as ferritic-martensitic) are l...
We have studied by electron microscopy the copper-rich precipitates in an Fe-1.3wt%Cu model alloy ir...
We report results of measurements of first-order reversal curves (FORCs) for neutron irradiated reac...
The Cu-rich German martensitic/bainitic structural steel WB36 (15 NiCuMoNb 5, 1.6368) is in service ...
Mechanical and magnetic property changes due to neutron irradiation and heat treatment were investig...
A novel nondestructive method called magnetic adaptive testing has been previously applied to detect...
Development of nondestructive evaluation (NDE) techniques for neutron irradiation embrittlement of r...
Magnetic minor hysteresis loops of low carbon steel and Fe metal have been measured during neutron r...
International audiencePressure vessel steels used in PWRs are known to be prone to hardening and emb...
Nondestructive magnetic measurement methods can be successfully applied to determine the embrittleme...
The results of long term research programme concerning the determination of irradiation embrittlemen...
Reactor pressure vessel steel welds are affected by irradiation during operation. The irradiation re...
Since reactor pressure vessel steels are ferromagnetic, provide a convenient means to monitor change...
The neutron irradiation of Fe-based fusion and fission reactor materials leads to an increase in duc...
The reactor pressure vessel steel of a nuclear power plant is subjected to fast neutron induced embr...
The T91 grade and similar 9Cr tempered-martensitic steels (also known as ferritic-martensitic) are l...
We have studied by electron microscopy the copper-rich precipitates in an Fe-1.3wt%Cu model alloy ir...