Prasad, C.D.Jerri, A.Ramesh, M.R.2026-02-052020Journal of Bio- and Tribo-Corrosion, 2020, 6, 3, pp. -21984220https://doi.org/10.1007/s40735-020-00366-7https://idr.nitk.ac.in/handle/123456789/23767The main aim of this work is to improve the sliding wear resistance of boiler steel material. The iron-based or Metco 41C metallic feedstock was deposited over the ASTM-SA213-T11 steel substrate using high-velocity oxy-fuel spraying process. The resultant deposits were subsequently characterized for microstructure, density, hardness, porosity and surface roughness. These characterizations were carried out with the help of XRD, SEM and Vickers’s microhardness tester. The sliding wear performance of the substrate and coatings were investigated by varying normal loads of 10 N and 20 N at temperatures of 200 °C, 300 °C as well as room conditions by employing pin-on-disk tribometer. The friction coefficient, volume of wear loss and wear rate were being found out. The wear results were compared among the substrate and coating. The formation of additional carbide phases such as Fe<inf>2</inf>C and SiC in Metco 41C coating led to higher hardness results in better wear resistance compared with the substrate. © 2020, Springer Nature Switzerland AG.CarbidesFrictionFuelsHardnessHVOF thermal sprayingIronIron compoundsSilicon carbideSilicon compoundsSprayed coatingsSurface roughnessWear of materialsWear resistanceFriction coefficientsHardness resultHigh velocity oxy-fuel sprayingMetallic coatingMicrohardness testerPin-on-disk tribometersSliding wear behaviorsSteel substrateLow carbon steel