Bajat, Jelena


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http://cer.ihtm.bg.ac.rs/APP/faces/author.xhtml?author_id=6a85d995-8ce6-4ae3-8eb2-d63b925fca57&item_offset=0&project_offset=0&sort_by=dc.date.issued

Authority Key	Name Variants
6a85d995-8ce6-4ae3-8eb2-d63b925fca57	Bajat, Jelena (1)

Projects

Ministry of Education, Science and Technological Development, Republic of Serbia, Grant no. 451-03-68/2020-14/200026 (University of Belgrade, Institute of Chemistry, Technology and Metallurgy - IChTM)	Ministry of Education, Science and Technological Development, Republic of Serbia, Grant no. 451-03-68/2020-14/200135 (University of Belgrade, Faculty of Technology and Metallurgy)

Author's Bibliography

Corrosion of metal parts in the power plant

Radojković, Bojana; Pejić, Jovanka N.; Marunkić, Dunja; Simović, Anđela; Eraković Pantović, Sanja; Jegdić, Bore; Bajat, Jelena

(Willey, 2023)

TY  - JOUR
AU  - Radojković, Bojana
AU  - Pejić, Jovanka N.
AU  - Marunkić, Dunja
AU  - Simović, Anđela
AU  - Eraković Pantović, Sanja
AU  - Jegdić, Bore
AU  - Bajat, Jelena
PY  - 2023
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/7089
AB  - The AISI 304 (X5CrNi19‐10) stainless steel is widely used for the production of
various metal parts in power plants. A procedure for testing the influence
of the dust from a power plant on resistance to general and pitting corrosion of
the AISI 304 stainless steel is developed and performed. The quantitative (XRD
method) and qualitative (Fourier–transform infrared spectroscopy [FTIR]
method) composition of the dust present in the power plant is determined.
Applying the Mott–Schottky method, the properties of the passive layer are
analyzed, while a degree of chromium depletion of the grain boundary is
determined by the electrochemical potentiokinetic reactivation method with
double loop method. Values of polarization resistance (linear polarization
resistance and electrochemical impedance spectroscopy methods) and the
corrosion current density (polarization measurements) indicate that the
stainless steel has a higher resistance to general corrosion in the dust solutions
than in the etalon solution. Also, based on the measured value of the pitting
potential (Epit) and the difference between the values of the pitting potential
and the corrosion potential (Epit – Ecorr), it can be seen that stainless steel has a
higher resistance to localized types of corrosion, such as pitting corrosion, in
dust solutions than in the etalon solution.
PB  - Willey
T2  - Materials and Corrosion
T1  - Corrosion of metal parts in the power plant
VL  - 74
IS  - 10
SP  - 1499
EP  - 1513
DO  - 10.1002/maco.202313919
ER  -

@article{
author = "Radojković, Bojana and Pejić, Jovanka N. and Marunkić, Dunja and Simović, Anđela and Eraković Pantović, Sanja and Jegdić, Bore and Bajat, Jelena",
year = "2023",
abstract = "The AISI 304 (X5CrNi19‐10) stainless steel is widely used for the production of
various metal parts in power plants. A procedure for testing the influence
of the dust from a power plant on resistance to general and pitting corrosion of
the AISI 304 stainless steel is developed and performed. The quantitative (XRD
method) and qualitative (Fourier–transform infrared spectroscopy [FTIR]
method) composition of the dust present in the power plant is determined.
Applying the Mott–Schottky method, the properties of the passive layer are
analyzed, while a degree of chromium depletion of the grain boundary is
determined by the electrochemical potentiokinetic reactivation method with
double loop method. Values of polarization resistance (linear polarization
resistance and electrochemical impedance spectroscopy methods) and the
corrosion current density (polarization measurements) indicate that the
stainless steel has a higher resistance to general corrosion in the dust solutions
than in the etalon solution. Also, based on the measured value of the pitting
potential (Epit) and the difference between the values of the pitting potential
and the corrosion potential (Epit – Ecorr), it can be seen that stainless steel has a
higher resistance to localized types of corrosion, such as pitting corrosion, in
dust solutions than in the etalon solution.",
publisher = "Willey",
journal = "Materials and Corrosion",
title = "Corrosion of metal parts in the power plant",
volume = "74",
number = "10",
pages = "1499-1513",
doi = "10.1002/maco.202313919"
}

Radojković, B., Pejić, J. N., Marunkić, D., Simović, A., Eraković Pantović, S., Jegdić, B.,& Bajat, J.. (2023). Corrosion of metal parts in the power plant. in Materials and Corrosion
Willey., 74(10), 1499-1513.
https://doi.org/10.1002/maco.202313919

Radojković B, Pejić JN, Marunkić D, Simović A, Eraković Pantović S, Jegdić B, Bajat J. Corrosion of metal parts in the power plant. in Materials and Corrosion. 2023;74(10):1499-1513.
doi:10.1002/maco.202313919 .

Radojković, Bojana, Pejić, Jovanka N., Marunkić, Dunja, Simović, Anđela, Eraković Pantović, Sanja, Jegdić, Bore, Bajat, Jelena, "Corrosion of metal parts in the power plant" in Materials and Corrosion, 74, no. 10 (2023):1499-1513,
https://doi.org/10.1002/maco.202313919 . .