Industries such as aerospace, automotive, oil and gas utilize various chemical, thermal, and mechanical techniques to improve the surface properties of engineering components. Deposition of metallic or nonmetallic materials on the surface of engineering components using different thermal spraying techniques is a common method to improve the mechanical properties of the surface of the components working at severe conditions. Thermal spraying techniques are capable of deposition of a coating layer with high corrosion, wear, erosion, and high temperature resistance. This technology can also be used for surface repair and treatment. Zirconia (ZrO2) based coatings are excellent candidates to serve at high temperature due to their tribological and insulation properties, and also high stiffness. ZrO2-based coatings are usually used in aircraft and gas-turbine engines as thermal barrier coatings. However, the relatively low wear and erosion resistance of Zirconia-based coatings limits their application. Among all coating materials, Tungsten Carbide (WC) based materials are commonly used to improve wear and corrosion resistance of the surface. It is speculated that combination of ZrO2 and WC follows by generating a coating with desirable thermal and mechanical properties, particularly at high temperature conditions. In the presented work, an innovative thermally sprayed coating material was proposed by depositing mixture of ZrO2-Y2O3 and WC-Ni (YPSZ/WC-Ni) powders on a low carbon steel substrate using Atmospheric Plasma Spraying (APS). As thermomechanical properties of coatings are under the influence of the microstructural features such as porosity, micro cracks, voids, and possible oxides, in this study microstructure and phase consistency of the resultant coating was briefly evaluated. To this end, Optical Microscopy, Scanning Electron Microscopy (SEM) and Energy Dispersive X-ray Spectroscopy (EDX) were used. The results indicated that deposited coating was well-bonded to the substrate with minimum observed separation line. Porosity amount of APS deposited YPSZ/WC-Ni measured by image analysis of the cross-sectional area Moreover, mechanical properties including hardness and elastic modulus of the coating were evaluated. Since thermally sprayed coatings exhibit anisotropic behavior, the Knoop hardness in the longitudinal and transverse directions were analyzed in this study. Elastic modulus of the coating was also evaluated, based on the measurement of elastic recovery of Knoop indentation in both directions using Marshal analytical model. Wear resistance of the coating was also investigated by pin-on-disk method, at room temperature. The friction coefficient of the consecutive coating was calculated and had a value lower than that of reported for APS deposited YPSZ.
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ASME 2015 International Mechanical Engineering Congress and Exposition
November 13–19, 2015
Houston, Texas, USA
Conference Sponsors:
- ASME
ISBN:
978-0-7918-5757-1
PROCEEDINGS PAPER
Evaluation of Mechanical Properties of Plasma Sprayed Mixture of Partially Stabilized Zirconia and Tungsten Carbide on Low Carbon Steel
M. Salimi Jazi,
M. Salimi Jazi
North Dakota State University, Fargo, ND
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S. Abuali Galedari,
S. Abuali Galedari
North Dakota State University, Fargo, ND
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F. Azarmi,
F. Azarmi
North Dakota State University, Fargo, ND
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X. Tangpong,
X. Tangpong
North Dakota State University, Fargo, ND
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Y. Huang,
Y. Huang
North Dakota State University, Fargo, ND
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Z. Lin
Z. Lin
North Dakota State University, Fargo, ND
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M. Salimi Jazi
North Dakota State University, Fargo, ND
S. Abuali Galedari
North Dakota State University, Fargo, ND
F. Azarmi
North Dakota State University, Fargo, ND
X. Tangpong
North Dakota State University, Fargo, ND
Y. Huang
North Dakota State University, Fargo, ND
Z. Lin
North Dakota State University, Fargo, ND
Paper No:
IMECE2015-51766, V014T11A017; 7 pages
Published Online:
March 7, 2016
Citation
Salimi Jazi, M, Abuali Galedari, S, Azarmi, F, Tangpong, X, Huang, Y, & Lin, Z. "Evaluation of Mechanical Properties of Plasma Sprayed Mixture of Partially Stabilized Zirconia and Tungsten Carbide on Low Carbon Steel." Proceedings of the ASME 2015 International Mechanical Engineering Congress and Exposition. Volume 14: Emerging Technologies; Safety Engineering and Risk Analysis; Materials: Genetics to Structures. Houston, Texas, USA. November 13–19, 2015. V014T11A017. ASME. https://doi.org/10.1115/IMECE2015-51766
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