Hardness Case Depth Tester

Product Description :

Surface hardening improves the wear resistance and fatigue strength of dynamically stressed components. These functional characteristics are mainly determined by surface hardness, hardening depth and residual stress.

Ultrasonic waves propagating in polycrystalline materials (steel) are scattered at material interfaces with changes of density and/or elastic properties. In general, the ultrasonic waves are scattered in all directions, one part also back to the ultrasonic transducer that generated the ultrasonic pulse. The intensity of backscattered ultrasound received by the transducer depends on the ratio of geometric size of scattering geometry to the wavelength of ultrasound and on the degree of material property difference at the interface denoted by the term acoustic impedance change.

In the regime where the ultrasonic wave length is large compared to the size of scattering geometry, higher ultrasound frequencies (or shorter wave lengths) increase the intensity of ultrasonic backscattering. Further, intensity of backscattering increases with the average effective size of the scattering geometry, for example the grain size of the polycrystalline steel. Using the appropriate frequency of about 20 MHz, the microstructure change between the hardened case (usually fine grained Martensite) and the core material with coarse grained microstructure causes a distinct increase of backscattering intensity. This effect can be observed when the ultrasonic pulse crosses the interface and standard time of flight evaluation yields the depth position of the interface that corresponds to the Surface Hardening Depth (SHD) (see figure 1).

Ultrasonic SHD testing is based on completely different physical principles compared to metallographic methods, such as microhardening testing or other destructive methods. Therefore, SHD values obtained thorought the UBT are not necessarily identical to destructive SHD values. Nevertheless, in most cases there is a good correlation between the two values, because both methods are influenced by the hardness process, particularly the location of the interface between hardened case to core material .