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High temperature erosion wear of cermet particles reinforced self-fluxing alloy HVOF sprayed coatings

Tutkimustuotosvertaisarvioitu

Standard

High temperature erosion wear of cermet particles reinforced self-fluxing alloy HVOF sprayed coatings. / Surzhenkov, Andrei; Goljandin, Dmitri; Traksmaa, Rainer; Viljus, Mart; Talviste, Kristofer; Aruniit, Aare; Latokartano, Jyrki; Kulu, Priit.

julkaisussa: Materials Science: Medziagotyra, Vuosikerta 21, Nro 3, 27.07.2015, s. 386-390.

Tutkimustuotosvertaisarvioitu

Harvard

Surzhenkov, A, Goljandin, D, Traksmaa, R, Viljus, M, Talviste, K, Aruniit, A, Latokartano, J & Kulu, P 2015, 'High temperature erosion wear of cermet particles reinforced self-fluxing alloy HVOF sprayed coatings', Materials Science: Medziagotyra, Vuosikerta. 21, Nro 3, Sivut 386-390. https://doi.org/10.5755/j01.ms.21.3.7617

APA

Surzhenkov, A., Goljandin, D., Traksmaa, R., Viljus, M., Talviste, K., Aruniit, A., ... Kulu, P. (2015). High temperature erosion wear of cermet particles reinforced self-fluxing alloy HVOF sprayed coatings. Materials Science: Medziagotyra, 21(3), 386-390. https://doi.org/10.5755/j01.ms.21.3.7617

Vancouver

Surzhenkov A, Goljandin D, Traksmaa R, Viljus M, Talviste K, Aruniit A et al. High temperature erosion wear of cermet particles reinforced self-fluxing alloy HVOF sprayed coatings. Materials Science: Medziagotyra. 2015 heinä 27;21(3):386-390. https://doi.org/10.5755/j01.ms.21.3.7617

Author

Surzhenkov, Andrei ; Goljandin, Dmitri ; Traksmaa, Rainer ; Viljus, Mart ; Talviste, Kristofer ; Aruniit, Aare ; Latokartano, Jyrki ; Kulu, Priit. / High temperature erosion wear of cermet particles reinforced self-fluxing alloy HVOF sprayed coatings. Julkaisussa: Materials Science: Medziagotyra. 2015 ; Vuosikerta 21, Nro 3. Sivut 386-390.

Bibtex - Lataa

@article{fa5b6c59e0f84621b3b9389531be6aff,
title = "High temperature erosion wear of cermet particles reinforced self-fluxing alloy HVOF sprayed coatings",
abstract = "The resistance of high velocity oxy-fuel (HVOF) sprayed TiC-NiMo and Cr3C2-Ni cermet particles reinforced NiCrSiB self-fluxing alloy coatings to high temperature erosion wear was studied. Microstructure of the coatings was examined by SEM, phase composition was determined by XRD. A four-channel centrifugal particle accelerator was applied to study the high temperature erosion wear of the coatings. The angles of impingement were 30º and 90º, initial particle velocity was 50 m/s, the average temperature of the test – 650 ºC. Volume wear of the coatings was calculated and compared to the respective values of the reference materials. Wear mechanisms were studied by SEM. HVOF sprayed coatings exhibited lower wear, than WC-15Co hardmetal and steel HARDOX 400, but higher wear than steel AISI 304. TiC-NiMo particles reinforced self-fluxing alloy coating demonstrated virtually the same wear resistance, as the Cr3C2-Ni particles reinforced self-fluxing alloy coating, at 30º and the better wear resistance at 90º.",
keywords = "Cermet, Composite coating, Erosion wear, High temperature wear, HVOF spraying, Self-fluxing alloy",
author = "Andrei Surzhenkov and Dmitri Goljandin and Rainer Traksmaa and Mart Viljus and Kristofer Talviste and Aare Aruniit and Jyrki Latokartano and Priit Kulu",
year = "2015",
month = "7",
day = "27",
doi = "10.5755/j01.ms.21.3.7617",
language = "English",
volume = "21",
pages = "386--390",
journal = "Materials Science: Medziagotyra",
issn = "1392-1320",
publisher = "Kauno Technologijos Universitetas",
number = "3",

}

RIS (suitable for import to EndNote) - Lataa

TY - JOUR

T1 - High temperature erosion wear of cermet particles reinforced self-fluxing alloy HVOF sprayed coatings

AU - Surzhenkov, Andrei

AU - Goljandin, Dmitri

AU - Traksmaa, Rainer

AU - Viljus, Mart

AU - Talviste, Kristofer

AU - Aruniit, Aare

AU - Latokartano, Jyrki

AU - Kulu, Priit

PY - 2015/7/27

Y1 - 2015/7/27

N2 - The resistance of high velocity oxy-fuel (HVOF) sprayed TiC-NiMo and Cr3C2-Ni cermet particles reinforced NiCrSiB self-fluxing alloy coatings to high temperature erosion wear was studied. Microstructure of the coatings was examined by SEM, phase composition was determined by XRD. A four-channel centrifugal particle accelerator was applied to study the high temperature erosion wear of the coatings. The angles of impingement were 30º and 90º, initial particle velocity was 50 m/s, the average temperature of the test – 650 ºC. Volume wear of the coatings was calculated and compared to the respective values of the reference materials. Wear mechanisms were studied by SEM. HVOF sprayed coatings exhibited lower wear, than WC-15Co hardmetal and steel HARDOX 400, but higher wear than steel AISI 304. TiC-NiMo particles reinforced self-fluxing alloy coating demonstrated virtually the same wear resistance, as the Cr3C2-Ni particles reinforced self-fluxing alloy coating, at 30º and the better wear resistance at 90º.

AB - The resistance of high velocity oxy-fuel (HVOF) sprayed TiC-NiMo and Cr3C2-Ni cermet particles reinforced NiCrSiB self-fluxing alloy coatings to high temperature erosion wear was studied. Microstructure of the coatings was examined by SEM, phase composition was determined by XRD. A four-channel centrifugal particle accelerator was applied to study the high temperature erosion wear of the coatings. The angles of impingement were 30º and 90º, initial particle velocity was 50 m/s, the average temperature of the test – 650 ºC. Volume wear of the coatings was calculated and compared to the respective values of the reference materials. Wear mechanisms were studied by SEM. HVOF sprayed coatings exhibited lower wear, than WC-15Co hardmetal and steel HARDOX 400, but higher wear than steel AISI 304. TiC-NiMo particles reinforced self-fluxing alloy coating demonstrated virtually the same wear resistance, as the Cr3C2-Ni particles reinforced self-fluxing alloy coating, at 30º and the better wear resistance at 90º.

KW - Cermet

KW - Composite coating

KW - Erosion wear

KW - High temperature wear

KW - HVOF spraying

KW - Self-fluxing alloy

UR - http://www.scopus.com/inward/record.url?scp=84940838056&partnerID=8YFLogxK

U2 - 10.5755/j01.ms.21.3.7617

DO - 10.5755/j01.ms.21.3.7617

M3 - Article

VL - 21

SP - 386

EP - 390

JO - Materials Science: Medziagotyra

JF - Materials Science: Medziagotyra

SN - 1392-1320

IS - 3

ER -