Homogeneity, metallurgical, mechanical, wear, and corrosion behavior of Ni and B4C coatings deposited on 304 stainless steels developed by microwave cladding technique
Электронный научный архив УРФУ
Информация об архиве | Просмотр оригинала| Поле | Значение | |
| Заглавие |
Homogeneity, metallurgical, mechanical, wear, and corrosion behavior of Ni and B4C coatings deposited on 304 stainless steels developed by microwave cladding technique
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| Автор |
Dwivedi, S. P.
Sharma, S. Srivastava, A. P. Sethi, V. A. Mohammed, K. A. Kumar, A. Khan, M. I. Abbas, M. Tag-Eldin, E. M. |
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| Тематика |
CORROSION
HARDNESS INTERFACIAL BOND LAYER MICROWAVE CLADDING NUMBER OF GRAINS WEAR AUSTENITIC STAINLESS STEEL BORON CARBIDE CLADDING (COATING) CORROSIVE EFFECTS FRICTION STEEL CORROSION WEAR OF MATERIALS WEAR RESISTANCE 304 STAINLESS STEEL BOND LAYER CLADDING SURFACES CORROSION BEHAVIOUR INTERFACIAL BOND LAYER INTERFACIAL BONDS MECHANICAL BEHAVIOR METALLURGICAL BEHAVIOR MICROWAVE CLADDING NUMBER OF GRAIN HARDNESS |
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| Описание |
The microwave cladding technique for depositing Ni and 10 % B4C coatings on 304 stainless steel has yielded significant advancements in material properties and performance. The key findings of this study revealed remarkable improvements, including a 43.33% increase in material hardness, indicating enhanced wear resistance and mechanical properties. This improvement was attributed to the uniform distribution of B4C and Ni on the cladding surface, ensuring a consistent interfacial layer developed between SS 304 and the cladding surface without cracks and porosity. Microstructural analysis at 500× magnification unveiled an impressive 2233.35 grains per square inch, showcasing the refined grain structure achieved during the cladding process. Wear testing demonstrated a low wear rate of 0.00308 mm³/m and a favorable coefficient of friction of 0.1981, confirming the material's suitability for applications with demanding frictional conditions. Furthermore, the corrosion behavior of the coated 304 stainless steel was assessed, revealing a minimal corrosion weight loss of only 0.42 mg for the Ni and 10% B4C coated sample. The presence of various carbide phases, such as Cr2C, Cr23C6, Cr7BC4, Fe5C2, and Fe23B6, within the cladding further contributed to the material's enhanced mechanical and wear properties. © 2023
Ministry of Education, India, MoE: KKU-IFP2-DB-6 The authors extend their appreciation to the Ministry of Education in KSA for funding this research work through the project number KKU-IFP2-DB-6. |
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| Дата |
2024-04-05T16:36:39Z
2024-04-05T16:36:39Z 2023 |
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| Тип |
Article
Journal article (info:eu-repo/semantics/article) |info:eu-repo/semantics/publishedVersion |
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| Идентификатор |
Dwivedi, S, Sharma, S, Srivastava, AP, Sethi, VA, Mohammed, K, Kumar, A, Khan, MI, Abbas, M & Tag-Eldin, E 2023, 'Homogeneity, metallurgical, mechanical, wear, and corrosion behavior of Ni and B4C coatings deposited on 304 stainless steels developed by microwave cladding technique', Journal of Materials Research and Technology, Том. 27, стр. 5854-5867. https://doi.org/10.1016/j.jmrt.2023.10.202
Dwivedi, S., Sharma, S., Srivastava, A. P., Sethi, V. A., Mohammed, K., Kumar, A., Khan, M. I., Abbas, M., & Tag-Eldin, E. (2023). Homogeneity, metallurgical, mechanical, wear, and corrosion behavior of Ni and B4C coatings deposited on 304 stainless steels developed by microwave cladding technique. Journal of Materials Research and Technology, 27, 5854-5867. https://doi.org/10.1016/j.jmrt.2023.10.202 2238-7854 Final All Open Access, Gold https://www.scopus.com/inward/record.uri?eid=2-s2.0-85177184402&doi=10.1016%2fj.jmrt.2023.10.202&partnerID=40&md5=a85de760a25923e92f3edde3de71c4ce https://doi.org/10.1016/j.jmrt.2023.10.202 http://elar.urfu.ru/handle/10995/130979 10.1016/j.jmrt.2023.10.202 85177184402 001121712200001 |
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| Язык |
en
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| Права |
Open access (info:eu-repo/semantics/openAccess)
cc-by-nc-nd https://creativecommons.org/licenses/by-nc-nd/4.0/ |
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| Формат |
application/pdf
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| Издатель |
Elsevier Editora Ltda
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| Источник |
Journal of Materials Research and Technology
Journal of Materials Research and Technology |
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