RESIDUAL STRESS CHARACTERIZATION WITH AN ULTRASONIC/MAGNETIC TECHNIQUE

Abstract A potentially useful new technique for residual stress characterization in ferromagnetic material is described. The unique feature of this technique is the measurement of small changes in ultrasonic wave velocity by the application of external DC magnetic field in the material under various stress conditions. It was found, in steel, that the fractional change in the natural velocity δW/W of waves propagating along the external field direction is affected by the uniaxial stress applied in the same axis. External compression lowers the slope of the δW/W curve in the low field region, while external tension generally does the opposite. For most cases, the slope in this region falls below zero under external compression. The result of measurements in specimens with residual stress shows exactly the same tendency.