Mechanical optimisation of Ni coatings produced by low-pressure cold spray

Nickel-based coatings are widely used as thermal barriers in several sectors thanks to their remarkable corrosion and wear resistance and outstanding stability at high temperatures. Recently, Ni coatings, produced with thermal spraying and vacuum techniques, have been investigated for solar power energy applications. In the present manuscript, low-pressure cold spray (LPCS) was used to deposit pure Nickel onto a steel substrate. The influence of gas temperature, nozzle stand-off distance, and advancing speed on morphological and mechanical properties were studied. The optimal deposition conditions were derived by ANOVA analysis. The hardness and the adhesion strength were approximately 160 HV and 26 MPa, respectively. The highest thickness obtained under the optimised deposition with a single pass was around 900 & mu;m.

Automated summary

Nickel-based coatings are widely used as thermal barriers due to their excellent corrosion resistance, wear resistance, and high-temperature stability. This study investigates the influence of various factors on the deposition of pure nickel onto a steel substrate using low-pressure cold spray (LPCS) technique, and determines the optimal deposition conditions.