Investigations on the Microstructure and Corrosion Performance of Different WC-Based Cermet Coatings Deposited by High Velocity Oxy Fuel Process onto Magnesium Alloy Substrate

Jonda, Ewa; Łatka, Leszek; Maciej, Artur; Khozhanov, Alexandr

doi:10.12913/22998624/160513

Cited by 4 publications

(2 citation statements)

References 61 publications

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“…The work is a continuation of research aimed at determining the impact of the applied process parameters on the functional properties of the applied coatings. In our previous work, corrosion resistance, abrasive wear and cavitation erosion were tested [26,27]. Moreover, the detailed microstructure investigations were carried out [28].…”

Section: Introductionmentioning

confidence: 99%

The Effect of HVOF Spray Distance on Solid Particle Erosion Resistance of WC-based Cermets Bonded by Co, Co-Cr and Ni Deposited on Mg-alloy Substrate

Jonda,

Łatka,

Lont

et al. 2024

Adv. Sci. Technol. Res. J.

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Magnesium alloys are very interesting engineering materials because of their high strength-to-density ratio. On the other hand, they are characterized by low hardness as well as low erosion resistance. Because of these reasons, their applications in the industry are very limited. The article presents the results of the high velocity oxy-fuel (HVOF) spraying of the hard cermet coatings onto AZ31 magnesium alloy substrate. Three feedstock powders were used in the process with composition (wt.%): WC-12Co, WC-10Co-4Cr and WC-20Cr 3 C 2 Ni. The spray distance (SD) was selected as a variable parameter with values equal to 320 and 400 mm. Observations carried out under a scanning electron microscope (SEM) revealed a typical HVOF-sprayed microstructure with a compact structure and low porosity (below 3 vol.%). The hardness of the manufactured coatings, ranging from 912 HV0.2 to 1328 HV0.2, what was significantly higher than the substrate. The solid particle erosion tests were carried out according to the ASTM G76-04 standard. Erosive experiments were done for 30°, 60° and 90° inclination angles of the nozzle using Al 2 O 3 abrasive. Erosion tests confirm that cermets exhibit substantial erosion resistance better than the substrate. The highest erosion resistance was noted for WC-10Co-4Cr coatings. The erosion rate for cermet coatings was mostly below 0.9 mg/min, whereas for the AZ31 it was more than 1.5 mg/min. In the case of the average erosion value, it was between 12 and 22 times lower than for the substrate. Results analysis reveal that shorter spray distance decreases porosity, increases hardness, and finally supports erosion resistance of the cermets.

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Section: Introductionmentioning

confidence: 99%

The Effect of HVOF Spray Distance on Solid Particle Erosion Resistance of WC-based Cermets Bonded by Co, Co-Cr and Ni Deposited on Mg-alloy Substrate

Jonda,

Łatka,

Lont

et al. 2024

Adv. Sci. Technol. Res. J.

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“…This leads to an out-ofcontrol increase of the real measurement area, which results in a systematic error when determining important characteristic values such as the corrosion current density. Therefore, the measurements are often influenced by the substrate material used to such an extent that the corrosion behavior of the coating can no longer be accurately assessed [8][9][10]. However, even if the infiltration of the coating does not extend to the coating-substrate interface, slight effects such as those caused by minor microstructural changes can hardly be detected because of the undefined measurement area.…”

Section: Introductionmentioning

confidence: 99%

Quasi Non-Destructive Quality Assessment of Thermally Sprayed AISI 316L Coatings Using Polarization Measurements in 3.5% NaCl Gel Electrolyte

Grimm

Kutschmann

Pluta³

et al. 2023

Coatings

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There is currently a lack of suitable methods of non-destructive quality assessment of thermally sprayed coatings. Therefore, this study investigates the suitability of polarization measurements that are adapted to the special needs of thermally sprayed coatings for non-destructive quality testing. For this purpose, a gel electrolyte containing 3.5% NaCl and a measuring cell based on the three-electrode arrangement were developed to prevent the corrosion medium from infiltrating the typical microstructure of thermally sprayed coatings (pores and microcracks). The newly developed method was evaluated on AISI 316L coatings deposited by high velocity air fuel (HVAF) and atmospheric plasma spraying (APS). The polarization curves showed significant differences as a result of spraying process-related changes in the coating microstructure. Even slight differences in oxide content within the AISI 316L coating produced by APS can be detected by the new method. In order to verify the new findings, the coatings were analyzed regarding their microstructure by optical microscope, scanning electron microscope and energy dispersive X-ray spectroscopy. The measuring cell and gel electrolyte developed offer a promising opportunity to evaluate the quality of thermally sprayed coatings in a largely non-destructive manner using polarization curves.

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Microstructure, residual stress and mechanical properties of double carbides cermet coatings manufactured on AZ31 substrate by high velocity oxy-fuel spraying

Jonda,

Łatka,

Godzierz

et al. 2024

Archiv.Civ.Mech.Eng

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Investigations on the Microstructure and Corrosion Performance of Different WC-Based Cermet Coatings Deposited by High Velocity Oxy Fuel Process onto Magnesium Alloy Substrate

Cited by 4 publications

References 61 publications

The Effect of HVOF Spray Distance on Solid Particle Erosion Resistance of WC-based Cermets Bonded by Co, Co-Cr and Ni Deposited on Mg-alloy Substrate

The Effect of HVOF Spray Distance on Solid Particle Erosion Resistance of WC-based Cermets Bonded by Co, Co-Cr and Ni Deposited on Mg-alloy Substrate

Quasi Non-Destructive Quality Assessment of Thermally Sprayed AISI 316L Coatings Using Polarization Measurements in 3.5% NaCl Gel Electrolyte

Microstructure, residual stress and mechanical properties of double carbides cermet coatings manufactured on AZ31 substrate by high velocity oxy-fuel spraying

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