Erosion behaviour of Fe-Cr-C alloys: Cast alloy versus coating
Апстракт
This research focuses on the erosion wear behaviour of two Fe-Cr-C alloys with similar chemical compositions obtained using different production methods. The first alloy belongs to the high chromium cast irons (HCCI). It was made by casting, after which the samples were heat treated by annealing. The second alloy in the form of the coating was applied by the plasma transferred arc (PTA) surface welding process at the substrate material (structural carbon steel). Damage to the components of industrial plants due to erosive and/or abrasive wear is a frequent cause of failure and outages of such systems. For this reason, and to bring the experimental research closer to real service conditions, an erosion test was performed at a gas blast sand facility with a high erodent speed of 90 m/s and a higher feed rate than standard erosion testing parameters recommended in ASTM G76 standard. Microstructural characterisation of all samples was done using a scanning electron microscope (SEM). The X...-ray diffraction analysis (XRD) was used to identify the phases present. Similar erosion mechanisms were observed on all tested specimens, but coated samples (PTA alloy) had a lower mass loss during the erosion test compared to cast samples (HCCI alloy), i.e. they showed better erosion resistance.
Кључне речи:
erosion / wear / Fe-Cr-C alloys / high chromium cast irons / plasma transferred arcИзвор:
Tribology and Materials, 2024, 3, 2, 59-66Колекције
Институција/група
Mašinski fakultetTY - JOUR AU - Rajičić, Bratislav AU - Maslarević, Aleksandar AU - Bakić, Gordana AU - Maksimović, Vesna AU - Đukić, Miloš PY - 2024 UR - https://machinery.mas.bg.ac.rs/handle/123456789/7863 AB - This research focuses on the erosion wear behaviour of two Fe-Cr-C alloys with similar chemical compositions obtained using different production methods. The first alloy belongs to the high chromium cast irons (HCCI). It was made by casting, after which the samples were heat treated by annealing. The second alloy in the form of the coating was applied by the plasma transferred arc (PTA) surface welding process at the substrate material (structural carbon steel). Damage to the components of industrial plants due to erosive and/or abrasive wear is a frequent cause of failure and outages of such systems. For this reason, and to bring the experimental research closer to real service conditions, an erosion test was performed at a gas blast sand facility with a high erodent speed of 90 m/s and a higher feed rate than standard erosion testing parameters recommended in ASTM G76 standard. Microstructural characterisation of all samples was done using a scanning electron microscope (SEM). The X-ray diffraction analysis (XRD) was used to identify the phases present. Similar erosion mechanisms were observed on all tested specimens, but coated samples (PTA alloy) had a lower mass loss during the erosion test compared to cast samples (HCCI alloy), i.e. they showed better erosion resistance. T2 - Tribology and Materials T1 - Erosion behaviour of Fe-Cr-C alloys: Cast alloy versus coating EP - 66 IS - 2 SP - 59 VL - 3 DO - 10.46793/tribomat.2024.008 ER -
@article{ author = "Rajičić, Bratislav and Maslarević, Aleksandar and Bakić, Gordana and Maksimović, Vesna and Đukić, Miloš", year = "2024", abstract = "This research focuses on the erosion wear behaviour of two Fe-Cr-C alloys with similar chemical compositions obtained using different production methods. The first alloy belongs to the high chromium cast irons (HCCI). It was made by casting, after which the samples were heat treated by annealing. The second alloy in the form of the coating was applied by the plasma transferred arc (PTA) surface welding process at the substrate material (structural carbon steel). Damage to the components of industrial plants due to erosive and/or abrasive wear is a frequent cause of failure and outages of such systems. For this reason, and to bring the experimental research closer to real service conditions, an erosion test was performed at a gas blast sand facility with a high erodent speed of 90 m/s and a higher feed rate than standard erosion testing parameters recommended in ASTM G76 standard. Microstructural characterisation of all samples was done using a scanning electron microscope (SEM). The X-ray diffraction analysis (XRD) was used to identify the phases present. Similar erosion mechanisms were observed on all tested specimens, but coated samples (PTA alloy) had a lower mass loss during the erosion test compared to cast samples (HCCI alloy), i.e. they showed better erosion resistance.", journal = "Tribology and Materials", title = "Erosion behaviour of Fe-Cr-C alloys: Cast alloy versus coating", pages = "66-59", number = "2", volume = "3", doi = "10.46793/tribomat.2024.008" }
Rajičić, B., Maslarević, A., Bakić, G., Maksimović, V.,& Đukić, M.. (2024). Erosion behaviour of Fe-Cr-C alloys: Cast alloy versus coating. in Tribology and Materials, 3(2), 59-66. https://doi.org/10.46793/tribomat.2024.008
Rajičić B, Maslarević A, Bakić G, Maksimović V, Đukić M. Erosion behaviour of Fe-Cr-C alloys: Cast alloy versus coating. in Tribology and Materials. 2024;3(2):59-66. doi:10.46793/tribomat.2024.008 .
Rajičić, Bratislav, Maslarević, Aleksandar, Bakić, Gordana, Maksimović, Vesna, Đukić, Miloš, "Erosion behaviour of Fe-Cr-C alloys: Cast alloy versus coating" in Tribology and Materials, 3, no. 2 (2024):59-66, https://doi.org/10.46793/tribomat.2024.008 . .