Add to ORKGThe present study concerns the generation of a wear resistant Stellite 6 CO2 laser clad layer on the surface of an EN19 steel substrate by means of laser surface cladding. Laser surface cladding was carried out by melting the Stellite powder (particle size 10 to 40 µm) supplied through a pneumat-ically driven powder delivery system (using a 4 MP powder unit) with a 9 kW continuous wave (CW) CO2 laser with the wavelength 10.6 µm. The microstructure of the clad layer was found to consist of three zones: a clad layer comprised of dendrites of Stellite 6; an alloyed zone comprised of a cellular microstructure, which was a mixture of Fe and Co; and the heat affected zone (HAZ), which was a mixture of pearlite and martensite. Compared to the EN19...
This paper deals with the wear properties of five different laser cladded Cobalt-base Stellite alloy...
Stellite 6 was deposited by laser cladding on a P91 substrate with energy inputs of 1 kW (P91-1) and...
AbstractStellite 6 was deposited by laser cladding of two different chromium-bearing steel substrate...
The present study concerns the generation of a wear resistant Stellite 6 CO2 laser clad layer on...
This research was aimed at the development of production methods and tools needed to achieve a high ...
The present paper concentrates on the applications of CO2 laser treatments to enhance fretting wear ...
The present paper concentrates on the applications of CO2 laser treatments to enhance fretting wear ...
Stellite 6 powder was deposited by laser cladding on a variety of ferritic and austenitic steel subs...
Electron microscopy, mechanical hardness measurements, and wear experiments have been carried out on...
The level of sliding friction between the mating top centre and centre bowl liner components of a ra...
The level of sliding friction between the mating top centre and centre bowl liner components of a ra...
The aim of the investigations was to perform basic researches for the creation of wear resisting sur...
The aim of the investigations was to perform basic researches for the creation of wear resisting sur...
Multilayer cladding by injection of high-speed steel powder with 0.82%C, 4.7%Mo, 6.4%W, 4.1%Cr, 2.02...
Laser surface cladding is a significant process used for improving and altering the surface properti...
This paper deals with the wear properties of five different laser cladded Cobalt-base Stellite alloy...
Stellite 6 was deposited by laser cladding on a P91 substrate with energy inputs of 1 kW (P91-1) and...
AbstractStellite 6 was deposited by laser cladding of two different chromium-bearing steel substrate...
The present study concerns the generation of a wear resistant Stellite 6 CO2 laser clad layer on...
This research was aimed at the development of production methods and tools needed to achieve a high ...
The present paper concentrates on the applications of CO2 laser treatments to enhance fretting wear ...
The present paper concentrates on the applications of CO2 laser treatments to enhance fretting wear ...
Stellite 6 powder was deposited by laser cladding on a variety of ferritic and austenitic steel subs...
Electron microscopy, mechanical hardness measurements, and wear experiments have been carried out on...
The level of sliding friction between the mating top centre and centre bowl liner components of a ra...
The level of sliding friction between the mating top centre and centre bowl liner components of a ra...
The aim of the investigations was to perform basic researches for the creation of wear resisting sur...
The aim of the investigations was to perform basic researches for the creation of wear resisting sur...
Multilayer cladding by injection of high-speed steel powder with 0.82%C, 4.7%Mo, 6.4%W, 4.1%Cr, 2.02...
Laser surface cladding is a significant process used for improving and altering the surface properti...
This paper deals with the wear properties of five different laser cladded Cobalt-base Stellite alloy...
Stellite 6 was deposited by laser cladding on a P91 substrate with energy inputs of 1 kW (P91-1) and...
AbstractStellite 6 was deposited by laser cladding of two different chromium-bearing steel substrate...