DOI: https://doi.org/10.32515/2664-262X.2025.11(42).1.115-120
Surface Topography of Arc-Sprayed Coatings by Cored Wires of Different Compositions and Its Influence on the Wear Mechanism
About the Authors
Volodymyr Hvozdetskyi, Senior Research, PhD in Technics (Candidate of Technics Sciences), Doctoral student, Surface Topography of Arc-Sprayed Coatings by Cored Wires of Different Compositions and Its Influence on the Wear Mechanism, e-mail: gvosdetcki@gmail.com, ORCID ID: 0000-0002-2956-5182
Alexander Lukyanenko, Senior Researcher, PhD in Technics (Candidate of Technics Sciences), Surface Topography of Arc-Sprayed Coatings by Cored Wires of Different Compositions and Its Influence on the Wear Mechanism, e-mail: alukanenko246@gmai, ORCID ID: 0000-0001-6642-2300
Serhiy Markovych, Associate Professor, PhD in Technics (Candidate of Technics Sciences), Центральноукраїнський національний технічний університет, м. Кропивницький, Україна, e-mail: marko60@ukr.net, ORCID ID: 0000-0003-1393-2360
Mykhailo Student, Professor, Doctor in Technics (Doctor of Technic Sciences), Surface Topography of Arc-Sprayed Coatings by Cored Wires of Different Compositions and Its Influence on the Wear Mechanism, e-mail: student.phmi@gmail.com, ORCID ID: 0000-0002-5992-5898
Khrystyna Zadorozhna, Researcher, PhD in Technics (Candidate of Technics Sciences), Surface Topography of Arc-Sprayed Coatings by Cored Wires of Different Compositions and Its Influence on the Wear Mechanism, e-mail: 880988@ukr.net, ORCID ID: 0000-0002-1310-6467
Nestor Mozola, post-graduate, Surface Topography of Arc-Sprayed Coatings by Cored Wires of Different Compositions and Its Influence on the Wear Mechanism, e-mail: e-mail: Mozola.N.Z@gmail.com
Abstract
The purpose of this work is to study the influence of the components of the composition of powder wires on the surface characteristics of sanded electric arc coatings. For the application of coatings used electric spray and powder wires with a diameter of 1.8 mm containing powders FeSi, FeTi, FeMn, pure metals Al and Cr and carbide B4C with a filling factor reached 24%. Spray parameters: current – 150 A, voltage – 32 V, air stream pressure – 0.6 MPa, spray distance – 120 mm. The surface topography revealed the plate structure of the coating with slats of different chemical composition. In coating are presence of carbides and borides, a significant amount of iron oxides and oxides of alloyed elements at the slats. Provisions from a considerable height contribute to intense wear due to reducing the friction steam surface. The interaction is regulated by the ratio of the depth of the projections (H) to the radius of its sharp tip (r). When H/r <0.02, there is only elastic interaction, with the material of counteraction elastic. In the range of 0.02 < H/r <0.7, the projections induce plastic deformation of the counter-body. If H/r > 0.7, sharp projections are cut to the surface, generating micro -cutting. Reducing the number and size of inclusions and increasing their rounding radii are critical for improving wear resistance. The coating contains complex mixtures of Fe-Cr oxide. The connection of chromium and aluminum oxides resist cutting, they will either break, forming surface ulcers or residual projections. Adding a ferromanganese to the wires produces manganese oxides with low micro -Service, which do not form the cutting of the edges during friction. Titanium applications that respond quickly with oxygen leads to a subtle formation of dispersed oxide inclusions based on those (7 GPa). These manganese and titanium oxides do not generate sharp cutting edges, reducing the surface roughness of making the coating more suitable for use in friction pairs.
Keywords
electric coatings, powder wires, surface roughness, element oxides, wear mechanism
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References
1. Ndumia, J. N., Kang, M., Gbenontin, B. V., Lin, J., & Nyambura, S. M. (2021). A review on the wear, corrosion, and high-temperature resistant properties of wire arc-sprayed Fe-based coatings. Nanomaterials, 11, Article 2527. https://doi.org/10.3390/nano11102527.
2. Student, M. M., Markovych, S. I., Hvozdetskyi, V. M., Kalakhan, O. S., & Yuskiv, V. M. (2022). Abrasive wear resistance and tribological characteristics of electrometallized composite coatings. Materials Science, 58(1), 96–104. https://doi.org/10.1007/s11003-022-00673-1.
3. Stupnyts’kyi, T. R., Student, M. M., Pokhmurs’ka, H. V., & Hvozdets’kyi, V. M. (2016). Optimization of the chromium content of powder wires of the Fe–Cr–C and Fe–Cr–B systems according to the corrosion resistance of electric-arc coatings. Materials Science, 52(2), 165–172. https://doi.org/10.1007/s11003-016-9940-3.
4. Student, M. M., Pokhmurska, H. V., Hvozdetskyi, V. M., et al. (2018). Multifunctional electric arc coatings [Monograph]. Lviv: Prostir-M [in Ukrainian].
5. Student, M. M., Markovych, S. I., & Hvozdetskyi, V. M. (2022). Abrasive wear resistance and tribological characteristics of electrometallized composite coatings. Physicochemical Mechanics of Materials, (1), 90–97 [in Ukrainian].
6. Lima, C., Libardi, R., Camargo, R., Fals, H., & Ferraresi, V. (2014). Assessment of abrasive wear of nanostructured WC–Co and Fe-based coatings applied by HP-HVOF, flame, and wire arc spray. Journal of Thermal Spray Technology, 23, 1097–1104. https://doi.org/10.1007/s11666-014-0132-7
7. Student, M., Hvozdetskyi, V., Stupnytskyi, T., Student, O., Maruschak, P., Prentkovskis, O., & Skačkauskas, P. (2022). Mechanical properties of arc coatings sprayed with cored wires with different charge compositions. Coatings, 12(7), Article 925. https://doi.org/10.3390/coatings12070925.
8. Student, M. M. (2020). Influence of electrode powder wire diameter on the mechanical characteristics of electric arc coatings. Central Ukrainian Scientific Bulletin. Technical Sciences, (3(34)), 32–44 [in Ukrainian].
9. Arizmendi-Morquecho, A., Campa-Castilla, A., Leyva-Porras, C., Aguilar Martinez, J. A., Vargas Gutiérrez, G., Moreno Bello, K. J., & López, L. (2014). Microstructural characterization and wear properties of Fe-based amorphous-crystalline coating deposited by twin wire arc spraying. Advances in Materials Science and Engineering, 2014, Article 521361. https://doi.org/10.1155/2014/521361.
Citations
1. Ndumia J.N., Kang M., Gbenontin B.V., Lin, J., Nyambura S.M. A review on the wear, corrosion and high-temperature resistant properties of wire arc-sprayed Fe-based coatings. Nanomaterials. 2021, 11, P. 2527. DOI: https://doi.org/10.3390/nano11102527.
2. Student M.M., Markovych S.I., Hvozdetskyi V.М., Kalakhan О.S., Yuskiv V.M. Abrasive Wear Resistance and Tribological Characteristics of Electrometallized Composite Coatings. Materials Science, 2022, 58(1), P. 96–104. DOI: https://doi.org/10.1007/s11003-022-00673-1.
3. Stupnyts’kyi T.R., Student M.M., Pokhmurs’ka H.V., Hvozdets’kyi V.M. Optimization of the chromium content of powder wires of the Fe–Cr–C and Fe–Cr–B systems according to the corrosion resistance of electric-arc coatings. Materials Science. 2016, 52(2), P. 165–172. DOI: 10.1007/s11003-016-9940-3.
4. Багатофункціональні електродугові покриття : монографія / М. М. Студент, Г. В. Похмурська, В. М. Гвоздецький та ін. Львів : Простір-М, 2018. 335 с.
5. Студент М.М., Маркович С.І., Гвоздецький В.М. Абразивна зносостійкість та трибологічні характеристики електрометалізаційних композиційних покриттів. Фізико-хімічна механіка матеріалів. 2022. № 1. C. 90-97.
6. Lima C., Libardi R., Camargo R., Fals H., Ferraresi V., Therm J. Assessment of abrasive wear of nanostructured WC–Co and Febased coatings applied by HPHVOF, flame, and wire arc spray. Spray Techn. 2014, 23, Article number: 10971104. DOI: https://doi.org/10.1007/s11666-014-0132-7.
7. Student M., Hvozdetskyi V., Stupnytskyi T., Student O., Maruschak P., Prentkovskis O., Skačkauskas P. Mechanical properties of arc coatings sprayed with cored wires with different charge compositions. Coatings. 2022, 12(7), P. 925. DOI: https://doi.org/10.3390/coatings12070925.
8. Студент М.М. Вплив діаметра електродних порошкових дротів на механічні характеристики електродугових покриттів. Центральноукраїнський науковий вісник. Технічні науки. 2020. Вип. 3(34). С. 32-44.
9. Arizmendi-Morquecho A., Campa-Castilla A., Leyva-Porras C., Josué Almicar Aguilar Martinez, Gregorio Vargas Gutiérrez, Karla Judith Moreno Bello, López L. Microstructural Characterization and Wear Properties of Fe-Based Amorphous-Crystalline Coating Deposited by Twin Wire Arc Spraying. Advances in Materials Science and Engineering. 2014. URL: https://doi.org/10.1155/2014/521361.
Copyright (c) 2025 Volodymyr Hvozdetskyi, Alexander Lukyanenko, Serhiy Markovych, Mykhailo Student, Khrystyna Zadorozhna, Nestor Mozola
Surface Topography of Arc-Sprayed Coatings by Cored Wires of Different Compositions and Its Influence on the Wear Mechanism
About the Authors
Volodymyr Hvozdetskyi, Senior Research, PhD in Technics (Candidate of Technics Sciences), Doctoral student, Surface Topography of Arc-Sprayed Coatings by Cored Wires of Different Compositions and Its Influence on the Wear Mechanism, e-mail: gvosdetcki@gmail.com, ORCID ID: 0000-0002-2956-5182
Alexander Lukyanenko, Senior Researcher, PhD in Technics (Candidate of Technics Sciences), Surface Topography of Arc-Sprayed Coatings by Cored Wires of Different Compositions and Its Influence on the Wear Mechanism, e-mail: alukanenko246@gmai, ORCID ID: 0000-0001-6642-2300
Serhiy Markovych, Associate Professor, PhD in Technics (Candidate of Technics Sciences), Центральноукраїнський національний технічний університет, м. Кропивницький, Україна, e-mail: marko60@ukr.net, ORCID ID: 0000-0003-1393-2360
Mykhailo Student, Professor, Doctor in Technics (Doctor of Technic Sciences), Surface Topography of Arc-Sprayed Coatings by Cored Wires of Different Compositions and Its Influence on the Wear Mechanism, e-mail: student.phmi@gmail.com, ORCID ID: 0000-0002-5992-5898
Khrystyna Zadorozhna, Researcher, PhD in Technics (Candidate of Technics Sciences), Surface Topography of Arc-Sprayed Coatings by Cored Wires of Different Compositions and Its Influence on the Wear Mechanism, e-mail: 880988@ukr.net, ORCID ID: 0000-0002-1310-6467
Nestor Mozola, post-graduate, Surface Topography of Arc-Sprayed Coatings by Cored Wires of Different Compositions and Its Influence on the Wear Mechanism, e-mail: e-mail: Mozola.N.Z@gmail.com
Abstract
Keywords
Full Text:
PDFReferences
1. Ndumia, J. N., Kang, M., Gbenontin, B. V., Lin, J., & Nyambura, S. M. (2021). A review on the wear, corrosion, and high-temperature resistant properties of wire arc-sprayed Fe-based coatings. Nanomaterials, 11, Article 2527. https://doi.org/10.3390/nano11102527.
2. Student, M. M., Markovych, S. I., Hvozdetskyi, V. M., Kalakhan, O. S., & Yuskiv, V. M. (2022). Abrasive wear resistance and tribological characteristics of electrometallized composite coatings. Materials Science, 58(1), 96–104. https://doi.org/10.1007/s11003-022-00673-1.
3. Stupnyts’kyi, T. R., Student, M. M., Pokhmurs’ka, H. V., & Hvozdets’kyi, V. M. (2016). Optimization of the chromium content of powder wires of the Fe–Cr–C and Fe–Cr–B systems according to the corrosion resistance of electric-arc coatings. Materials Science, 52(2), 165–172. https://doi.org/10.1007/s11003-016-9940-3.
4. Student, M. M., Pokhmurska, H. V., Hvozdetskyi, V. M., et al. (2018). Multifunctional electric arc coatings [Monograph]. Lviv: Prostir-M [in Ukrainian].
5. Student, M. M., Markovych, S. I., & Hvozdetskyi, V. M. (2022). Abrasive wear resistance and tribological characteristics of electrometallized composite coatings. Physicochemical Mechanics of Materials, (1), 90–97 [in Ukrainian].
6. Lima, C., Libardi, R., Camargo, R., Fals, H., & Ferraresi, V. (2014). Assessment of abrasive wear of nanostructured WC–Co and Fe-based coatings applied by HP-HVOF, flame, and wire arc spray. Journal of Thermal Spray Technology, 23, 1097–1104. https://doi.org/10.1007/s11666-014-0132-7
7. Student, M., Hvozdetskyi, V., Stupnytskyi, T., Student, O., Maruschak, P., Prentkovskis, O., & Skačkauskas, P. (2022). Mechanical properties of arc coatings sprayed with cored wires with different charge compositions. Coatings, 12(7), Article 925. https://doi.org/10.3390/coatings12070925.
8. Student, M. M. (2020). Influence of electrode powder wire diameter on the mechanical characteristics of electric arc coatings. Central Ukrainian Scientific Bulletin. Technical Sciences, (3(34)), 32–44 [in Ukrainian].
9. Arizmendi-Morquecho, A., Campa-Castilla, A., Leyva-Porras, C., Aguilar Martinez, J. A., Vargas Gutiérrez, G., Moreno Bello, K. J., & López, L. (2014). Microstructural characterization and wear properties of Fe-based amorphous-crystalline coating deposited by twin wire arc spraying. Advances in Materials Science and Engineering, 2014, Article 521361. https://doi.org/10.1155/2014/521361.
Citations
1. Ndumia J.N., Kang M., Gbenontin B.V., Lin, J., Nyambura S.M. A review on the wear, corrosion and high-temperature resistant properties of wire arc-sprayed Fe-based coatings. Nanomaterials. 2021, 11, P. 2527. DOI: https://doi.org/10.3390/nano11102527.
2. Student M.M., Markovych S.I., Hvozdetskyi V.М., Kalakhan О.S., Yuskiv V.M. Abrasive Wear Resistance and Tribological Characteristics of Electrometallized Composite Coatings. Materials Science, 2022, 58(1), P. 96–104. DOI: https://doi.org/10.1007/s11003-022-00673-1.
3. Stupnyts’kyi T.R., Student M.M., Pokhmurs’ka H.V., Hvozdets’kyi V.M. Optimization of the chromium content of powder wires of the Fe–Cr–C and Fe–Cr–B systems according to the corrosion resistance of electric-arc coatings. Materials Science. 2016, 52(2), P. 165–172. DOI: 10.1007/s11003-016-9940-3.
4. Багатофункціональні електродугові покриття : монографія / М. М. Студент, Г. В. Похмурська, В. М. Гвоздецький та ін. Львів : Простір-М, 2018. 335 с.
5. Студент М.М., Маркович С.І., Гвоздецький В.М. Абразивна зносостійкість та трибологічні характеристики електрометалізаційних композиційних покриттів. Фізико-хімічна механіка матеріалів. 2022. № 1. C. 90-97.
6. Lima C., Libardi R., Camargo R., Fals H., Ferraresi V., Therm J. Assessment of abrasive wear of nanostructured WC–Co and Febased coatings applied by HPHVOF, flame, and wire arc spray. Spray Techn. 2014, 23, Article number: 10971104. DOI: https://doi.org/10.1007/s11666-014-0132-7.
7. Student M., Hvozdetskyi V., Stupnytskyi T., Student O., Maruschak P., Prentkovskis O., Skačkauskas P. Mechanical properties of arc coatings sprayed with cored wires with different charge compositions. Coatings. 2022, 12(7), P. 925. DOI: https://doi.org/10.3390/coatings12070925.
8. Студент М.М. Вплив діаметра електродних порошкових дротів на механічні характеристики електродугових покриттів. Центральноукраїнський науковий вісник. Технічні науки. 2020. Вип. 3(34). С. 32-44.
9. Arizmendi-Morquecho A., Campa-Castilla A., Leyva-Porras C., Josué Almicar Aguilar Martinez, Gregorio Vargas Gutiérrez, Karla Judith Moreno Bello, López L. Microstructural Characterization and Wear Properties of Fe-Based Amorphous-Crystalline Coating Deposited by Twin Wire Arc Spraying. Advances in Materials Science and Engineering. 2014. URL: https://doi.org/10.1155/2014/521361.