Steel Surface Doped with Nb via Modulated Electron-Beam Irradiation: Structure and Properties

A niobium film on an AISI 5135 steel substrate was exposed to submillisecond pulsed electron-beam irradiation with controlled energy modulation within a pulse to increase the film–substrate adhesion. This modulated irradiation made it possible to dope the steel-surface layer with Nb through film dis...

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Veröffentlicht in:	Coatings (Basel) 2023-06, Vol.13 (6), p.1131
Hauptverfasser:	Vorobyov, Maxim Sergeevich, Petrikova, Elizaveta Alekseevna, Shin, Vladislav Igorevich, Moskvin, Pavel Vladimirovich, Ivanov, Yurii Fedorovich, Koval, Nikolay Nikolaevich, Koval, Tamara Vasil`evna, Prokopenko, Nikita Andreevich, Kartavtsov, Ruslan Aleksandrovich, Shpanov, Dmitry Alekseevich
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Coating processes Electron beams Electron irradiation Hardness Ion bombardment Mechanical properties Mechanical wear Methods Microhardness Niobium Plasma Steel Stress concentration Structural steels Substrates Surface hardness Surface layers Surface structure Testing Wear rate
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creator	Vorobyov, Maxim Sergeevich Petrikova, Elizaveta Alekseevna Shin, Vladislav Igorevich Moskvin, Pavel Vladimirovich Ivanov, Yurii Fedorovich Koval, Nikolay Nikolaevich Koval, Tamara Vasil`evna Prokopenko, Nikita Andreevich Kartavtsov, Ruslan Aleksandrovich Shpanov, Dmitry Alekseevich
description	A niobium film on an AISI 5135 steel substrate was exposed to submillisecond pulsed electron-beam irradiation with controlled energy modulation within a pulse to increase the film–substrate adhesion. This modulated irradiation made it possible to dope the steel-surface layer with Nb through film dissolution in the layer, for which optimum irradiation conditions were chosen from experiments and a mathematical simulation. The irradiated system was tested for surface hardness and wear, and its surface structure and elemental composition were analyzed. The results demonstrate that the microhardness of the irradiated system is much higher and that its wear rate is much lower compared to the initial state.
doi_str_mv	10.3390/coatings13061131
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This modulated irradiation made it possible to dope the steel-surface layer with Nb through film dissolution in the layer, for which optimum irradiation conditions were chosen from experiments and a mathematical simulation. The irradiated system was tested for surface hardness and wear, and its surface structure and elemental composition were analyzed. 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subjects	Analysis Coating processes Electron beams Electron irradiation Hardness Ion bombardment Mechanical properties Mechanical wear Methods Microhardness Niobium Plasma Steel Stress concentration Structural steels Substrates Surface hardness Surface layers Surface structure Testing Wear rate
title	Steel Surface Doped with Nb via Modulated Electron-Beam Irradiation: Structure and Properties
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