Detail publikačního výsledku
Improving of 100Cr6 Steel Corrosion and Wear Properties in Simulated Sea Water Environment by Tungsten-Doped DLC Coating
VICEN, M.; KAJÁNEK, D.; TRŠKO, L.; BOKŮVKA, O.; BUCHTÍK, M.; FLORKOVÁ, Z.; FRKÁŇ, M.
Originální název
Improving of 100Cr6 Steel Corrosion and Wear Properties in Simulated Sea Water Environment by Tungsten-Doped DLC Coating
Anglický název
Improving of 100Cr6 Steel Corrosion and Wear Properties in Simulated Sea Water Environment by Tungsten-Doped DLC Coating
Druh
Článek WoS
Originální abstrakt
A progressive type of tungsten-doped DLC coating was applied to a quenched and tempered 100Cr6 steel with the aim to improve the wear and corrosion properties in simulated seawater conditions and to compare the performance to conventional DLC coating. Tungsten doping caused a shift of the corrosion potential (Ecorr) to a lower negative value of −172 mV, while the conventional DLC exhibited an Ecorr of −477 mV. In dry conditions, the W-DLC coefficient of friction is slightly higher than that of the conventional DLC (0.187 for the W-DLC vs. 0.137 for the DLC), but in cases of a saltwater environment, this difference becomes almost negligible (0.105 for the W-DLC vs. 0.076 for the DLC). The conventional DLC coating also started to show marks of deterioration when exposed to a combination of wear in a corrosive environment, while the W-DLC layer still maintained its integrity.
Anglický abstrakt
A progressive type of tungsten-doped DLC coating was applied to a quenched and tempered 100Cr6 steel with the aim to improve the wear and corrosion properties in simulated seawater conditions and to compare the performance to conventional DLC coating. Tungsten doping caused a shift of the corrosion potential (Ecorr) to a lower negative value of −172 mV, while the conventional DLC exhibited an Ecorr of −477 mV. In dry conditions, the W-DLC coefficient of friction is slightly higher than that of the conventional DLC (0.187 for the W-DLC vs. 0.137 for the DLC), but in cases of a saltwater environment, this difference becomes almost negligible (0.105 for the W-DLC vs. 0.076 for the DLC). The conventional DLC coating also started to show marks of deterioration when exposed to a combination of wear in a corrosive environment, while the W-DLC layer still maintained its integrity.
Klíčová slova
DLC coating; W-DLC coating; wear; tribology; corrosion resistance
Klíčová slova v angličtině
DLC coating; W-DLC coating; wear; tribology; corrosion resistance
Autoři
VICEN, M.; KAJÁNEK, D.; TRŠKO, L.; BOKŮVKA, O.; BUCHTÍK, M.; FLORKOVÁ, Z.; FRKÁŇ, M.
Rok RIV
2024
Vydáno
12.06.2023
Nakladatel
MDPI
Místo
Basel, Switzerland
ISSN
1996-1944
Periodikum
Materials
Svazek
16
Číslo
12
Stát
Švýcarská konfederace
Strany od
1
Strany do
15
Strany počet
15
URL
Plný text v Digitální knihovně
BibTex
@article{BUT183966,
author="Martin {Vicen} and Daniel {Kajánek} and Libor {Trško} and Otakar {Bokůvka} and Martin {Buchtík} and Zuzana {Florková} and Martin {Frkáň}",
title="Improving of 100Cr6 Steel Corrosion and Wear Properties in Simulated Sea Water Environment by Tungsten-Doped DLC Coating",
journal="Materials",
year="2023",
volume="16",
number="12",
pages="1--15",
doi="10.3390/ma16124334",
url="https://www.mdpi.com/1996-1944/16/12/4334"
}Dokumenty