Entry, transport and absorption of hydrogen in low-temperature plasma nitrided austenitic stainless steel

Low temperature nitriding of stainless steel leads to the formation of a surface zone of so-called expanded austenite, i.e. by dissolution of large amounts of nitrogen in solid solution. In the present work the possibility of using nitrogen expanded austenite "layers" obtained by gaseous nitriding o

## Abstract The 00Cr18Ni10 stainless steel was examined before and after plasma nitriding in a 80%N~2~/20%H~2~ gas mixture at 425°C for 30 h, resulting in the formation of a supersaturated solid solution of nitrogen in austenite (__S__ phase) with 12.9 wt.% N at the surface. Electrochemical measure

The erosion-corrosion behaviour of low-temperature plasma surface alloyed AISI 316 austenitic stainless steel has been compared with untreated material using a newly developed slurry pot erosion-corrosion apparatus containing a slurry comprising 20 wt.% silica sand and 3.5%NaCl at 40 • C. The total

The influence of tempering temperature on the reversed austenite formation and tensile properties are investigated in Fe-13%Cr-4%Ni-Mo low carbon martensite stainless steel in the temperature range of 550-950 • C. It is found that at the temperatures below 680 • C, the reversed austenite formation o