Add to ORKGUltrasonic backscatteing technique has been applied to measure hardening depth of the range, 2-10 mm in induction hardened components. The method is based on the sensitivity of backscattering to microstructural variations at the transition from the hardened surface layer to base material. The change in microstructure leads to the backscattered amplitude which was found to be very sharp at the transition region for the investigated samples. Measurements were performed in immersion using 45 degree-shear waves at a frequency of 18 Mhz. Spatial averaging was used for smoothening the backscattered signals. The hardening depth is evaluated from the difference in time-off-flight between the surface reflection and the rising part of the backscatter...
Radiography, microhardness measurements, residual stress distribution curves, decoding of dislocatio...
The use of surface acoustic waves was studied as a means of evaluating surface-hardened steels. Four...
Materials and components undergo the highest loads at their surfaces. To withstand mechanical loads,...
Induction hardening is a well established technique to improve the resistance of components against ...
Induction hardening is a complex process that requires regular verification of the case depth and th...
Induction and flame hardening are standard heat treatment procedures for generating hard cases in st...
Induction-Laser- and Case-hardening are techniques to obtain surface microstructures with high resis...
The paper describes usability of ultrasonic case hardening depth control applying standard instrumen...
[著者版]The present work is concerned with nondestructive evaluation of the thickness of the remelted z...
Diffuse ultrasonic backscatter measurements have been especially useful for extracting microstructur...
In the round robin action of the AMES network material states of JRQ-steel 'as delivered' and 'aged'...
This research is focused on establishing a correlation between hardness which is one of the most imp...
Ultrasonic surface waves are suitable to characterize surface hardened materials. This is shown at l...
There are always burrs in hollow castings. They are caused by the joining of the different streams o...
The possibility of using ultrasonic surface hardening with implementing the indenter tangential osci...
Radiography, microhardness measurements, residual stress distribution curves, decoding of dislocatio...
The use of surface acoustic waves was studied as a means of evaluating surface-hardened steels. Four...
Materials and components undergo the highest loads at their surfaces. To withstand mechanical loads,...
Induction hardening is a well established technique to improve the resistance of components against ...
Induction hardening is a complex process that requires regular verification of the case depth and th...
Induction and flame hardening are standard heat treatment procedures for generating hard cases in st...
Induction-Laser- and Case-hardening are techniques to obtain surface microstructures with high resis...
The paper describes usability of ultrasonic case hardening depth control applying standard instrumen...
[著者版]The present work is concerned with nondestructive evaluation of the thickness of the remelted z...
Diffuse ultrasonic backscatter measurements have been especially useful for extracting microstructur...
In the round robin action of the AMES network material states of JRQ-steel 'as delivered' and 'aged'...
This research is focused on establishing a correlation between hardness which is one of the most imp...
Ultrasonic surface waves are suitable to characterize surface hardened materials. This is shown at l...
There are always burrs in hollow castings. They are caused by the joining of the different streams o...
The possibility of using ultrasonic surface hardening with implementing the indenter tangential osci...
Radiography, microhardness measurements, residual stress distribution curves, decoding of dislocatio...
The use of surface acoustic waves was studied as a means of evaluating surface-hardened steels. Four...
Materials and components undergo the highest loads at their surfaces. To withstand mechanical loads,...