The High Temperature Erosion/Corrosion Behavior of Industrial Thermally Sprayed Coatings

Abstract: There are numerous industrial applications where materials are subjected to simultaneous high temperature oxidation/corrosion and wear (such as erosion). This combination often leads to accelerated degradation. Specific industries include: chemical, waste incineration, power generation and paper/pulp with typical applications including boilers and cyclones. Previous studies have established wrought material compositions and microstructures which can resist these environments. In searching for cost-effective in… Show more

“…Thermal spraying can result in the formation of porosity in the coating due to the rapid solidification of the sprayed particles. Additionally, high-temperature spraying can lead to oxidation of the sprayed material, affecting the coating quality [10]. Therefore, cladding processes such as plasma transferred arc cladding, gas tungsten arc cladding and laser cladding are employed to deposit the hard and thick coating layer onto the substrate surface.…”

A Sustainable Development Perspective and Evaluating the Impact of Laser Cladding Parameters on Mild Steel

“…Thermal spraying can result in the formation of porosity in the coating due to the rapid solidification of the sprayed particles. Additionally, high-temperature spraying can lead to oxidation of the sprayed material, affecting the coating quality [10]. Therefore, cladding processes such as plasma transferred arc cladding, gas tungsten arc cladding and laser cladding are employed to deposit the hard and thick coating layer onto the substrate surface.…”

A Sustainable Development Perspective and Evaluating the Impact of Laser Cladding Parameters on Mild Steel

Researching for Corrosion-Resistance Performance of Laser-Hybrid Plasma Spraying NiCr-Cr3C2 Coating

Modification and testing of two wheeler exhaust pipe