Correlation of the microhardness with the nitrogen profiles and the phase composition in the surface of laser-nitrided steel

“…Depending on the operational laser parameters (energy density, frequency, number of pulses and laser intensity distribution), nitrogen distribution reached a depth of about 300 nm, while the nitrogen content from 22 at.% at the surface was found to decrease to 4 at.% and the main phases identified within the treated zone were ␥-Fe(N), coexisting (␥ + ) and finally pure -Fe x N. Similar results were obtained in more recent studies on the excimer laser nitriding of steels (Schaaf et al, 1998 , the main difference being the formation of carbonitrides due to the presence of carbon. Similar results, concerning the phase composition of nitrided surfaces were obtained when using laser and pre-heated nitrogen or laser and nitrogen plasma hybrid techniques (Sun et al, 2005).…”

Parametric study on laser nitriding of 1.5919 steel

“…Depending on the operational laser parameters (energy density, frequency, number of pulses and laser intensity distribution), nitrogen distribution reached a depth of about 300 nm, while the nitrogen content from 22 at.% at the surface was found to decrease to 4 at.% and the main phases identified within the treated zone were ␥-Fe(N), coexisting (␥ + ) and finally pure -Fe x N. Similar results were obtained in more recent studies on the excimer laser nitriding of steels (Schaaf et al, 1998 , the main difference being the formation of carbonitrides due to the presence of carbon. Similar results, concerning the phase composition of nitrided surfaces were obtained when using laser and pre-heated nitrogen or laser and nitrogen plasma hybrid techniques (Sun et al, 2005).…”

Parametric study on laser nitriding of 1.5919 steel

“…The film hardness was measured with a Fischerscope HV100 nanoindenter (Helmut Fischer GmbH, Sindelfingen, Germany) with a Vickers diamond at an indentation force of 3 mN 49. For measuring the electrical conductivities of the films, a standard four‐point‐probe setup at constant current of 1 mA were carried out 47.…”

Pulsed laser deposition from a pre‐synthesized Cr₂AlC MAX phase target with and without ion‐beam assistance

“…The maximum indention force was set to 5 mN. Five positions were measured for each sample and the mean values are reported [27].…”

Amorphous stainless steel coatings prepared by reactive magnetron-sputtering from austenitic stainless steel targets