Add to ORKGThis paper reviews the development of a new electromagnetic (EM) inspection system for assessingmicrostructure during controlled cooling on a hot strip mill. The EM inspection system exploits magnetic induction spectroscopy to determine a transformation index which can characterize the evolution of the microstructure during cooling
"White" solidified zones - ledeburite and cemenite components - in iron castings worsen the loadabil...
Per definition, magnetic NDT can be applied at ferromagnetic material only. However, most of the mat...
Active thermography, using electromagnetic excitation, is a non-contacting, non-destructive evaluati...
In the production of steel strip, the temperature distribution and cooling rates along the mill run-...
AbstractThis paper assesses the feasibility of transferring a laboratory-based electromagnetic (EM) ...
In a hot strip mill (HSM), the evolution of phase transformation in steel during the dynamic cooling...
Magnetic and electric properties (such as low field relative permeability and resistivity) are sensi...
Micromagnetic NDT techniques like the measurement of the magnetic Barkhausen noise, the incremental ...
This paper describes the development of an instrument to analyze the phase transformations of hot st...
Quality control in heat treatment of steel is often conducted after the treatment. Failure to confin...
Failure of power station steel components can have severe economic impacts and also present signific...
The characterization of steel microstructures is an important tool for metallurgists as mechanical...
An industrial-scale electromagnetic (EM) sensor is employed to non-destructively and dynamically mon...
An in-situ high temperature EM sensor was used to detect changes in the microstructural state caused...
Micromagnetic NDT techniques like the measurement of the magnetic Barkhausen noise, the incremental ...
"White" solidified zones - ledeburite and cemenite components - in iron castings worsen the loadabil...
Per definition, magnetic NDT can be applied at ferromagnetic material only. However, most of the mat...
Active thermography, using electromagnetic excitation, is a non-contacting, non-destructive evaluati...
In the production of steel strip, the temperature distribution and cooling rates along the mill run-...
AbstractThis paper assesses the feasibility of transferring a laboratory-based electromagnetic (EM) ...
In a hot strip mill (HSM), the evolution of phase transformation in steel during the dynamic cooling...
Magnetic and electric properties (such as low field relative permeability and resistivity) are sensi...
Micromagnetic NDT techniques like the measurement of the magnetic Barkhausen noise, the incremental ...
This paper describes the development of an instrument to analyze the phase transformations of hot st...
Quality control in heat treatment of steel is often conducted after the treatment. Failure to confin...
Failure of power station steel components can have severe economic impacts and also present signific...
The characterization of steel microstructures is an important tool for metallurgists as mechanical...
An industrial-scale electromagnetic (EM) sensor is employed to non-destructively and dynamically mon...
An in-situ high temperature EM sensor was used to detect changes in the microstructural state caused...
Micromagnetic NDT techniques like the measurement of the magnetic Barkhausen noise, the incremental ...
"White" solidified zones - ledeburite and cemenite components - in iron castings worsen the loadabil...
Per definition, magnetic NDT can be applied at ferromagnetic material only. However, most of the mat...
Active thermography, using electromagnetic excitation, is a non-contacting, non-destructive evaluati...