Surface modification of an austenitic stainless steel wire by a multi-pulse treatment with a high-power electric current

Abstract: The skin effect caused by high-power electric pulses can be used for modification of the surface microstructure in metallic materials. The electric current pulses of high amplitude and short rapid surface heating followed by melting and rapid solidification due to heat exchange with the bulk. New high-current multi-pulse equipment was engineered and used for the surface modification of a stainless steel. The microstructure was investigated by transmission electron microscopy as a function of the distance from … Show more

“…So far, determining the quantity of the electron-dislocation interaction caused by the EPE has been a rather difficult task. [8,17] The analysis tools need to resolve the very small changes in mechanical behavior and microstructure despite the high current densities. Essentially, there are three methods to characterize the impact of the EPE.…”

Electroplasticity Mechanisms in hcp Materials

“…So far, determining the quantity of the electron-dislocation interaction caused by the EPE has been a rather difficult task. [8,17] The analysis tools need to resolve the very small changes in mechanical behavior and microstructure despite the high current densities. Essentially, there are three methods to characterize the impact of the EPE.…”

Electroplasticity Mechanisms in hcp Materials