Tribo-Mechanical and Electrochemical Properties of Carbonitrided 316 Austenitic Stainless Steel by rf Plasma for Biomedical Applications

Abstract: AISI 316 austenitic stainless steel was carbonitrided using rf plasma with purpose of using low-cost orthopedic implant materials in biomedical applications besides the manufacturing requests. The plasma treatment process was accomplished at low working gas pressure of 0.075 mbar in nitrogen-acetylene gaseous mixture. The plasma-processing time was fixed at 10 min while the plasma-processing power was varied from 450 to 650 watt. The effect of plasma treatment power on the structure, tribological, mechanical, … Show more

“…e compressive residual stress induced in the nitrided layer enhances the surface hardness, wear, corrosion resistance, and fatigue strength. Fatigue behavior generally originates from the surface and/ or near surface on the material [4][5][6]. e crack starts at the interface between the high and low residual stress sites owing to the compressed residual stress in the di usion layer [1,5].…”

Fracture Behavior of Ion-Nitrided AISI 4140 Steel in accordance with Variable Applied Current Density

“…e compressive residual stress induced in the nitrided layer enhances the surface hardness, wear, corrosion resistance, and fatigue strength. Fatigue behavior generally originates from the surface and/ or near surface on the material [4][5][6]. e crack starts at the interface between the high and low residual stress sites owing to the compressed residual stress in the di usion layer [1,5].…”

Fracture Behavior of Ion-Nitrided AISI 4140 Steel in accordance with Variable Applied Current Density

Investigation of microstructure, tribological, and corrosion behaviors of TiN@AISI 316 CN processed by rf plasma

Influence of Rf plasma carbonitriding on AISI304L, SSMn6Ni and SSMn10Ni for nuclear applications