Microstructure and abrasive wear behavior of a novel FeCrMoVC laser cladding alloy for high-performance tool steels

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Microstructure and abrasive wear behavior of a novel FeCrMoVC laser cladding alloy for high-performance tool steels. / Zeisig, J.; Schädlich, N.; Giebeler, Lars et al.
In: Wear, Vol. 382-383.2017, No. 15 July, 26.04.2017, p. 107-112.

Research output: Contribution to journalArticleResearchpeer-review

Harvard

Zeisig, J, Schädlich, N, Giebeler, L, Sander, J, Eckert, J, Kühn, U & Hufenbach, J 2017, 'Microstructure and abrasive wear behavior of a novel FeCrMoVC laser cladding alloy for high-performance tool steels', Wear, vol. 382-383.2017, no. 15 July, pp. 107-112. https://doi.org/10.1016/j.wear.2017.04.021

APA

Zeisig, J., Schädlich, N., Giebeler, L., Sander, J., Eckert, J., Kühn, U., & Hufenbach, J. (2017). Microstructure and abrasive wear behavior of a novel FeCrMoVC laser cladding alloy for high-performance tool steels. Wear, 382-383.2017(15 July), 107-112. Advance online publication. https://doi.org/10.1016/j.wear.2017.04.021

Vancouver

Zeisig J, Schädlich N, Giebeler L, Sander J, Eckert J, Kühn U et al. Microstructure and abrasive wear behavior of a novel FeCrMoVC laser cladding alloy for high-performance tool steels. Wear. 2017 Apr 26;382-383.2017(15 July):107-112. Epub 2017 Apr 26. doi: 10.1016/j.wear.2017.04.021

Author

Zeisig, J. ; Schädlich, N. ; Giebeler, Lars et al. / Microstructure and abrasive wear behavior of a novel FeCrMoVC laser cladding alloy for high-performance tool steels. In: Wear. 2017 ; Vol. 382-383.2017, No. 15 July. pp. 107-112.

Bibtex - Download

@article{f0194753a0bf493a9cd6c91e7df5309e,
title = "Microstructure and abrasive wear behavior of a novel FeCrMoVC laser cladding alloy for high-performance tool steels",
abstract = "This work shows the successful application of a novel Fe85Cr4Mo8V2C1 (wt%) laser cladding wire material on a high-performance tool steel (1.2379, X155CrMo12-1) using a pulsed Nd:YAG laser system. Due to the high cooling rates during the welding process and appropriate laser parameters, a fine, homogeneous microstructure composed of martensite, austenite as well as VC- and Mo2C-type carbides was formed. This combination of phases along with their special morphology and distribution result in crack-free dense coatings with an enhanced hardness and abrasive wear resistance compared to the substrate material and a conventionally applied cladding alloy. In summary, laser cladding with the novel FeCrMoVC alloy shows a high potential for repair welding and hardfacing of high-performance carbon-rich steel tools.",
author = "J. Zeisig and N. Sch{\"a}dlich and Lars Giebeler and J. Sander and J{\"u}rgen Eckert and Uta K{\"u}hn and J. Hufenbach",
year = "2017",
month = apr,
day = "26",
doi = "10.1016/j.wear.2017.04.021",
language = "English",
volume = "382-383.2017",
pages = "107--112",
journal = "Wear",
issn = "0043-1648",
publisher = "Elsevier",
number = "15 July",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - Microstructure and abrasive wear behavior of a novel FeCrMoVC laser cladding alloy for high-performance tool steels

AU - Zeisig, J.

AU - Schädlich, N.

AU - Giebeler, Lars

AU - Sander, J.

AU - Eckert, Jürgen

AU - Kühn, Uta

AU - Hufenbach, J.

PY - 2017/4/26

Y1 - 2017/4/26

N2 - This work shows the successful application of a novel Fe85Cr4Mo8V2C1 (wt%) laser cladding wire material on a high-performance tool steel (1.2379, X155CrMo12-1) using a pulsed Nd:YAG laser system. Due to the high cooling rates during the welding process and appropriate laser parameters, a fine, homogeneous microstructure composed of martensite, austenite as well as VC- and Mo2C-type carbides was formed. This combination of phases along with their special morphology and distribution result in crack-free dense coatings with an enhanced hardness and abrasive wear resistance compared to the substrate material and a conventionally applied cladding alloy. In summary, laser cladding with the novel FeCrMoVC alloy shows a high potential for repair welding and hardfacing of high-performance carbon-rich steel tools.

AB - This work shows the successful application of a novel Fe85Cr4Mo8V2C1 (wt%) laser cladding wire material on a high-performance tool steel (1.2379, X155CrMo12-1) using a pulsed Nd:YAG laser system. Due to the high cooling rates during the welding process and appropriate laser parameters, a fine, homogeneous microstructure composed of martensite, austenite as well as VC- and Mo2C-type carbides was formed. This combination of phases along with their special morphology and distribution result in crack-free dense coatings with an enhanced hardness and abrasive wear resistance compared to the substrate material and a conventionally applied cladding alloy. In summary, laser cladding with the novel FeCrMoVC alloy shows a high potential for repair welding and hardfacing of high-performance carbon-rich steel tools.

U2 - 10.1016/j.wear.2017.04.021

DO - 10.1016/j.wear.2017.04.021

M3 - Article

VL - 382-383.2017

SP - 107

EP - 112

JO - Wear

JF - Wear

SN - 0043-1648

IS - 15 July

ER -