Resistance of Laser-Clad Chromium–Nickel Coatings to Failure under Contact Fatigue Loading

[1] Navas C.(2006)Abrasive wear behavior of laser clad and flame sprayed-melted NiCrBSi coatings Surf. Coat. Technol. 200 6854-6862

[2] Colaço R.(2005)Wear behaviour of laser clad NiCrBSi coating Wear 259 870-875

[3] de Damborenea J.(2011)Effect of carbide degradation in a Ni-based hardfacing under abrasive and combined impact/abrasive conditions Surf. Coat. Technol. 206 1062-1068

[4] Vilar R.(2007)Microstructural aspects of plasma transferred arc surfaced Ni-based hardfacing alloy Mater. Sci. Eng., A 456 11-19

[5] Fernández E.(2013)Tribological properties of TiC particles reinforced Ni-based alloy composite coatings Trans. Nonferrous Met. Soc. China 23 1681-1688

[6] Cadenas M.(2010)Influence of alloy chemistry on microstructure and properties in NiCrBSi overlay coatings deposited by plasma transferred arc welding (PTAW) Surf. Coat. Technol. 205 759-765

[7] González R.(2009)“The influence of the chemical composition on the tribological properties of chromium–nickel coatings obtained by the method of gas-powder laser cladding,” Izv. Chelyabinsk NTs UrO RAN, No. 2 28-33

[8] Navas C.(2009)Eddy-current testing of the hardness, wear resistance, and thickness of coatings prepared by gas-powder laser cladding Russ. J. Nondestr. Test. 45 797-805

[9] Fernández R.(2011)The influence of the microstructure and phase composition on tribological performances of NiCrBSi laser coatings Izvestia of RAS SamSC 13 869-873

[10] de Damborenea J.(2017)Role of the strengthening phases in abrasive wear resistance of laser-clad NiCrBSi coatings J Frict. Wear 38 272-278

[1] Navas C.(2006)Abrasive wear behavior of laser clad and flame sprayed-melted NiCrBSi coatings Surf. Coat. Technol. 200 6854-6862

[2] Colaço R.(2005)Wear behaviour of laser clad NiCrBSi coating Wear 259 870-875

[3] de Damborenea J.(2011)Effect of carbide degradation in a Ni-based hardfacing under abrasive and combined impact/abrasive conditions Surf. Coat. Technol. 206 1062-1068

[4] Vilar R.(2007)Microstructural aspects of plasma transferred arc surfaced Ni-based hardfacing alloy Mater. Sci. Eng., A 456 11-19

[5] Fernández E.(2013)Tribological properties of TiC particles reinforced Ni-based alloy composite coatings Trans. Nonferrous Met. Soc. China 23 1681-1688

[6] Cadenas M.(2010)Influence of alloy chemistry on microstructure and properties in NiCrBSi overlay coatings deposited by plasma transferred arc welding (PTAW) Surf. Coat. Technol. 205 759-765

[7] González R.(2009)“The influence of the chemical composition on the tribological properties of chromium–nickel coatings obtained by the method of gas-powder laser cladding,” Izv. Chelyabinsk NTs UrO RAN, No. 2 28-33

[8] Navas C.(2009)Eddy-current testing of the hardness, wear resistance, and thickness of coatings prepared by gas-powder laser cladding Russ. J. Nondestr. Test. 45 797-805

[9] Fernández R.(2011)The influence of the microstructure and phase composition on tribological performances of NiCrBSi laser coatings Izvestia of RAS SamSC 13 869-873

[10] de Damborenea J.(2017)Role of the strengthening phases in abrasive wear resistance of laser-clad NiCrBSi coatings J Frict. Wear 38 272-278