Wear Behavior of DIN 1.2210 Steel Modified by a Pulse Plasma Technique

Abstract: The microstructure and wear properties of pulse plasma treated AISI 4140 steel was investigated. The surface properties of the materials have been improved by modifying the surfaces of the DIN 1.2210 steel with pulse plasma technique. The sample surfaces have been modified by pulse plasma with C3H8, nitrogen and O2 gases. Two different distances between the sample and nozzle and three different numbers of pulse were determined for modification process and the surface process was implemented by using tungsten e… Show more

“…Modern surface engineering technologies are also used, such as: ablative laser micromachining - Fig. 1, 3D and incremental technologies such a laser welding [1][2][3].The use of laser technology poses a challenge to existing nondestructive testing methods, for example, how to quickly monitor the quality of laser processing on ferromagnetic components?…”

NDT of Rating Impact of Laser Padding on the Surface Layer

“…Modern surface engineering technologies are also used, such as: ablative laser micromachining - Fig. 1, 3D and incremental technologies such a laser welding [1][2][3].The use of laser technology poses a challenge to existing nondestructive testing methods, for example, how to quickly monitor the quality of laser processing on ferromagnetic components?…”

NDT of Rating Impact of Laser Padding on the Surface Layer

Comparative Analysis of the Microstructural Features of 28 wt.% Cr Cast Iron Fabricated by Pulsed Plasma Deposition and Conventional Casting