Add to ORKGTo prevent an accident due to the metal degradation of stainless steels, we have previously proposed fatigue evaluation methods (such as the remnant magnetization method using a thin-film flux-gate magnetic sensor [1] and the inductance method using a pan-cake type coil [2]). These two fatigue evaluation methods demonstrated a good correlation between the magnetic sensor output signal and the amount of plane-bending fatigue damage in stainless steels. We developed a stacked-coil type magnetic sensor shown in Fig. 1(a) in order to achieve a magnetic sensor for an accurate fatigue evaluation. This magnetic sensor was composed of two detection coils that are connected differentially, an excitation coil, and a ferrite core. Fig. 1(b) shows the ...
Fatigue damage causes continuous, cumulative microstructural changes in materials and the magnetic p...
To evaluate the material degradation of ferritic steels caused by low cycle stress-induced fatigue, ...
Ferritic stainless steel is the family of stainless steel. Ferritic stainless steel has many applica...
The objective of this study was to determine how magnetic properties such as coercivity, hysteresis ...
It is known that the magnetic properties of ferromagnetic materials change under fatigue and applied...
The objective of this study is to evaluate the application of the metal magnetic memory (MMM) techni...
Fatigue damage was investigated by the method of magnetic adaptive testing (MAT), which is based on ...
Fatigue is one of the leading causes of failure in structural components. The development of a viabl...
For structural components which are exposed to cyclic stresses, fatigue damage could lead to a catas...
A new revolutionary attitude towards investiga tion of fatigue damage in cyclically loaded steel s...
In this paper, metal magnetic memory (MMM) method is used to detect the micro-crack position on the ...
To monitor fatigue crack initiation and propagation, and to judge the fatigue damage status of ferro...
Austenitic stainless steels are in wide-spread application in the chemical as well as nuclear indust...
Austenitic stainless steels are in wide-spread application in the chemical as well as nuclear indust...
In many cases, where a high reliability is demanded, such as in nuclear power plants or civil engine...
Fatigue damage causes continuous, cumulative microstructural changes in materials and the magnetic p...
To evaluate the material degradation of ferritic steels caused by low cycle stress-induced fatigue, ...
Ferritic stainless steel is the family of stainless steel. Ferritic stainless steel has many applica...
The objective of this study was to determine how magnetic properties such as coercivity, hysteresis ...
It is known that the magnetic properties of ferromagnetic materials change under fatigue and applied...
The objective of this study is to evaluate the application of the metal magnetic memory (MMM) techni...
Fatigue damage was investigated by the method of magnetic adaptive testing (MAT), which is based on ...
Fatigue is one of the leading causes of failure in structural components. The development of a viabl...
For structural components which are exposed to cyclic stresses, fatigue damage could lead to a catas...
A new revolutionary attitude towards investiga tion of fatigue damage in cyclically loaded steel s...
In this paper, metal magnetic memory (MMM) method is used to detect the micro-crack position on the ...
To monitor fatigue crack initiation and propagation, and to judge the fatigue damage status of ferro...
Austenitic stainless steels are in wide-spread application in the chemical as well as nuclear indust...
Austenitic stainless steels are in wide-spread application in the chemical as well as nuclear indust...
In many cases, where a high reliability is demanded, such as in nuclear power plants or civil engine...
Fatigue damage causes continuous, cumulative microstructural changes in materials and the magnetic p...
To evaluate the material degradation of ferritic steels caused by low cycle stress-induced fatigue, ...
Ferritic stainless steel is the family of stainless steel. Ferritic stainless steel has many applica...