Trklja-Boca, Nora

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Effects of high thermal loads produced by interaction of accelerated plasma with steel surfaces (100Cr6, 16MnCr5, 42CrMo4)

Trklja-Boca, Nora; Mišković, Žarko; Mitrović, Radivoje; Obradović, Bratislav M.; Kuraica, Milorad M.

(Elsevier Science Sa, Lausanne, 2021) 

TY  - JOUR
AU  - Trklja-Boca, Nora
AU  - Mišković, Žarko
AU  - Mitrović, Radivoje
AU  - Obradović, Bratislav M.
AU  - Kuraica, Milorad M.
PY  - 2021
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/3493
AB  - Magnetoplasma compressor (MPC), a type of plasma accelerators, is used for treatment and alloying of steel samples: steel 100Cr6, steel 16MnCr5 and steel 42CrMo4. The high-speed plasma flow formed within the MPC, from helium with 5% of hydrogen as working gas, is directed to the surface of the samples. The energy flux density of the plasma flow in the plasma-sample interaction area is 9 J/cm(2). Plasma melts the near-surface layer and during the rapid cooling process, a thin layer with structure different from initial is created. Changes in the physical composition of the substrate are monitored depending on the number of plasma treatments. After treatment with a plasma produced within MPC, a significant improvement of hardness has been achieved.
PB  - Elsevier Science Sa, Lausanne
T2  - Surface & Coatings Technology
T1  - Effects of high thermal loads produced by interaction of accelerated plasma with steel surfaces (100Cr6, 16MnCr5, 42CrMo4)
VL  - 416
DO  - 10.1016/j.surfcoat.2021.127157
ER  - 
@article{
author = "Trklja-Boca, Nora and Mišković, Žarko and Mitrović, Radivoje and Obradović, Bratislav M. and Kuraica, Milorad M.",
year = "2021",
abstract = "Magnetoplasma compressor (MPC), a type of plasma accelerators, is used for treatment and alloying of steel samples: steel 100Cr6, steel 16MnCr5 and steel 42CrMo4. The high-speed plasma flow formed within the MPC, from helium with 5% of hydrogen as working gas, is directed to the surface of the samples. The energy flux density of the plasma flow in the plasma-sample interaction area is 9 J/cm(2). Plasma melts the near-surface layer and during the rapid cooling process, a thin layer with structure different from initial is created. Changes in the physical composition of the substrate are monitored depending on the number of plasma treatments. After treatment with a plasma produced within MPC, a significant improvement of hardness has been achieved.",
publisher = "Elsevier Science Sa, Lausanne",
journal = "Surface & Coatings Technology",
title = "Effects of high thermal loads produced by interaction of accelerated plasma with steel surfaces (100Cr6, 16MnCr5, 42CrMo4)",
volume = "416",
doi = "10.1016/j.surfcoat.2021.127157"
}
Trklja-Boca, N., Mišković, Ž., Mitrović, R., Obradović, B. M.,& Kuraica, M. M.. (2021). Effects of high thermal loads produced by interaction of accelerated plasma with steel surfaces (100Cr6, 16MnCr5, 42CrMo4). in Surface & Coatings Technology
Elsevier Science Sa, Lausanne., 416.
https://doi.org/10.1016/j.surfcoat.2021.127157
Trklja-Boca N, Mišković Ž, Mitrović R, Obradović BM, Kuraica MM. Effects of high thermal loads produced by interaction of accelerated plasma with steel surfaces (100Cr6, 16MnCr5, 42CrMo4). in Surface & Coatings Technology. 2021;416.
doi:10.1016/j.surfcoat.2021.127157 .
Trklja-Boca, Nora, Mišković, Žarko, Mitrović, Radivoje, Obradović, Bratislav M., Kuraica, Milorad M., "Effects of high thermal loads produced by interaction of accelerated plasma with steel surfaces (100Cr6, 16MnCr5, 42CrMo4)" in Surface & Coatings Technology, 416 (2021),
https://doi.org/10.1016/j.surfcoat.2021.127157 . .
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