Electrochemical Aspects of Laser Clad Nickel Base Coatings

Abstract: A comparative assessment is presented, by cyclic voltammetry, of the electrochemical performances of experimental samples of nickel base superalloy layer samples L1, with a maximum thickness of 0 . 5 mm, and L2 and L3 successively thinned, produced by laser cladding on a support of carbon steel OLC45 as compared with the reference materials, commercial nickel base superalloys with a similar chemical composition, as well as an analysis of the variation of these properties in the bulk of the layer. The electroly… Show more

“…The most important applications concern surface preparation, surface treatments, machining and welding. [1][2][3][4][5][6] Among the surface properties modified by laser treatment, protection against corrosion is of great importance. Surface modification through laser surface melting is, for instance, often reported to improve the resistance against localised corrosion inherent to stainless steels, such as intergranular corrosion and pitting corrosion.…”

Surface modification of martensitic stainless steels by laser marking and its consequences regarding corrosion resistance

“…The most important applications concern surface preparation, surface treatments, machining and welding. [1][2][3][4][5][6] Among the surface properties modified by laser treatment, protection against corrosion is of great importance. Surface modification through laser surface melting is, for instance, often reported to improve the resistance against localised corrosion inherent to stainless steels, such as intergranular corrosion and pitting corrosion.…”

Surface modification of martensitic stainless steels by laser marking and its consequences regarding corrosion resistance

Influence du marquage laser d'instruments chirurgicaux en acier inoxydable sur leur résistance à la corrosion

Laser cladding layer height automatic detecting control