The Effect of Chemical Composition on the Microstructure and Properties of Multicomponent Nickel-Based Boride Layers Produced on C45 Steel by the Hybrid Method

Abstract: Layers of iron–nickel Fe-Ni-B-type borides were produced on C45 steel using a new hybrid treatment variant which combines boriding under glow discharge conditions with galvanic nickel precoating. The aim was to investigate whether these layers could constitute an alternative to the previously developed multicomponent Fe-Ni-B-P-type layers produced by a hybrid treatment variant using chemical nickel precoating. The basis for assessing the effects of both alternative treatments was a comparative analysis of the … Show more

“…The chemical nickel coating, after deposition amorphous, crystallizes during heating, creating a eutectic mixture of Ni 3 P-type phosphide and nickel with phosphide being the dominant phase. Substrates previously chemically nickel-plated have been successfully used by us in hybrid technologies for producing boride layers on steel based on the diffusion of boron from gas carriers (BCl 3 ) through the coatings to the substrate [46]; hence, in this work it was assumed that a similar solution in the case of nitriding will be effective. As one can see, nitrogen behaves differently than boron, the reasons for which are unclear at the current stage of research.…”

Diffusion Nitride Surface Layers on Aluminum Substrates Produced by Hybrid Method Using Gas Nitriding

“…The chemical nickel coating, after deposition amorphous, crystallizes during heating, creating a eutectic mixture of Ni 3 P-type phosphide and nickel with phosphide being the dominant phase. Substrates previously chemically nickel-plated have been successfully used by us in hybrid technologies for producing boride layers on steel based on the diffusion of boron from gas carriers (BCl 3 ) through the coatings to the substrate [46]; hence, in this work it was assumed that a similar solution in the case of nitriding will be effective. As one can see, nitrogen behaves differently than boron, the reasons for which are unclear at the current stage of research.…”

Diffusion Nitride Surface Layers on Aluminum Substrates Produced by Hybrid Method Using Gas Nitriding