Influence of nano-sized WC addition on the microstructure, residual stress, and tribological properties of WC-Co HVAF-sprayed coatings

Influence of nano-sized WC addition on the microstructure, residual stress, and tribological properties of WC-Co HVAF-sprayed coatings

It has recently been proposed to modify conventional WC-Co coatings with nano-sized particles to improve their properties. Modification of the coatings with nano-sized carbides may provide higher wear resistance or phase composition stability. This work characterized the changes in the residual stre...

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Bibliographic Details
Published in:Surface & coatings technology Vol. 482; p. 130696
Main Authors: Myalska-Głowacka, H., Bolelli, G., Lusvarghi, L., Cios, G., Godzierz, M., Talaniuk, V.
Format: Journal Article
Language:English
Published: Elsevier B.V 30-04-2024
Subjects:
Bimodal coating
Composite coating
High velocity air fuel (HVAF)
Residual stress
Sliding wear
WC-Co
WC-Co
Sliding wear
Composite coating
High velocity air fuel (HVAF)
Residual stress
Bimodal coating
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Summary:It has recently been proposed to modify conventional WC-Co coatings with nano-sized particles to improve their properties. Modification of the coatings with nano-sized carbides may provide higher wear resistance or phase composition stability. This work characterized the changes in the residual stresses induced by introducing WC nanoparticles into a WC-Co coating and the resulting change in their sliding wear behavior. A powder mixture consisting of agglomerated and sintered WC-17Co feedstock powder and 5 % nano-sized WC was deposited on a carbon steel substrate using the High Velocity Air Fuel (HVAF) process. Microstructural characterization using scanning electron microscopy and EBSD confirmed that nano-sized WC particles were embedded in the coatings after the spraying process, primarily along the boundaries of the WC-Co lamellae. This resulted in an enhancement of microhardness, indentation fracture toughness, and dry sliding wear resistance, evaluated via ball-on-disk tests against Al2O3 counterparts. Residual stresses in the coatings were also measured by XRD using the sin2ψ method. The normal stress along the torch movement direction decreased significantly when nano-sized WC was added. The addition of nanoparticles also caused a slight decrease in the normal stress perpendicular to the torch movement. [Display omitted] Nano-WC was embedded along splat boundaries in the WC-Co coating.Nano-sized WC addition decreases the normal stress along the torch movement direction.The nanoparticles compensate the WC loss due to decarburization along splat boundaries.Thus, the nanoparticles-containing coating has higher hardness and wear resistance.
ISSN:0257-8972
1879-3347
DOI:10.1016/j.surfcoat.2024.130696