Potential of Duplex Plasma Deposition Processes for the Improvement of Wear Resistance of Hot Forging Dies

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Autoren

  • B. A. Behrens
  • T. Yilkiran
  • G. Braeuer
  • H. Paschke
  • M. Weber

Externe Organisationen

  • Fraunhofer-Institut für Schicht- und Oberflächentechnik (IST)
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Titel des SammelwerksThe Current State-of-the-Art on Material Forming
UntertitelNumerical and Experimental Approaches at Different Length-Scales
Seiten345-358
Seitenumfang14
PublikationsstatusVeröffentlicht - 13 Juni 2013
Veranstaltung16th ESAFORM Conference on Material Forming, ESAFORM 2013 - Aveiro, Portugal
Dauer: 22 Apr. 201324 Apr. 2013

Publikationsreihe

NameKey Engineering Materials
Band554-557
ISSN (Print)1013-9826

Abstract

The efficiency of forging processes is significantly influenced by the tool and scrap costs which in their turn depend on the life time of forging dies. The tools used for hot forging are subject to process-related high mechanical, tribological, chemical and thermal-cyclic loads which usually interact with each other. In comparison to other manufacturing methods, the resulting load spectrum leads to extensive wear and thus to the failure of forging dies after a short tool life. To increase the wear resistance of forging dies, duplex treatments consisting of plasma nitriding and plasma deposition techniques were used to improve the surface properties and hence to increase the die life time. By basic investigation of the wear mechanisms the potentials of newly developed vanadium doped chromium nitride and boron containing titanium nitride coating systems were investigated. Within the presented work it is demonstrated that vanadium-doped chromium nitride layers have a high wear reduction potential for hot forging dies.

ASJC Scopus Sachgebiete

Zitieren

Potential of Duplex Plasma Deposition Processes for the Improvement of Wear Resistance of Hot Forging Dies. / Behrens, B. A.; Yilkiran, T.; Braeuer, G. et al.
The Current State-of-the-Art on Material Forming: Numerical and Experimental Approaches at Different Length-Scales. 2013. S. 345-358 (Key Engineering Materials; Band 554-557).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Behrens, BA, Yilkiran, T, Braeuer, G, Paschke, H & Weber, M 2013, Potential of Duplex Plasma Deposition Processes for the Improvement of Wear Resistance of Hot Forging Dies. in The Current State-of-the-Art on Material Forming: Numerical and Experimental Approaches at Different Length-Scales. Key Engineering Materials, Bd. 554-557, S. 345-358, 16th ESAFORM Conference on Material Forming, ESAFORM 2013, Aveiro, Portugal, 22 Apr. 2013. https://doi.org/10.4028/www.scientific.net/KEM.554-557.345
Behrens, B. A., Yilkiran, T., Braeuer, G., Paschke, H., & Weber, M. (2013). Potential of Duplex Plasma Deposition Processes for the Improvement of Wear Resistance of Hot Forging Dies. In The Current State-of-the-Art on Material Forming: Numerical and Experimental Approaches at Different Length-Scales (S. 345-358). (Key Engineering Materials; Band 554-557). https://doi.org/10.4028/www.scientific.net/KEM.554-557.345
Behrens BA, Yilkiran T, Braeuer G, Paschke H, Weber M. Potential of Duplex Plasma Deposition Processes for the Improvement of Wear Resistance of Hot Forging Dies. in The Current State-of-the-Art on Material Forming: Numerical and Experimental Approaches at Different Length-Scales. 2013. S. 345-358. (Key Engineering Materials). doi: 10.4028/www.scientific.net/KEM.554-557.345
Behrens, B. A. ; Yilkiran, T. ; Braeuer, G. et al. / Potential of Duplex Plasma Deposition Processes for the Improvement of Wear Resistance of Hot Forging Dies. The Current State-of-the-Art on Material Forming: Numerical and Experimental Approaches at Different Length-Scales. 2013. S. 345-358 (Key Engineering Materials).
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abstract = "The efficiency of forging processes is significantly influenced by the tool and scrap costs which in their turn depend on the life time of forging dies. The tools used for hot forging are subject to process-related high mechanical, tribological, chemical and thermal-cyclic loads which usually interact with each other. In comparison to other manufacturing methods, the resulting load spectrum leads to extensive wear and thus to the failure of forging dies after a short tool life. To increase the wear resistance of forging dies, duplex treatments consisting of plasma nitriding and plasma deposition techniques were used to improve the surface properties and hence to increase the die life time. By basic investigation of the wear mechanisms the potentials of newly developed vanadium doped chromium nitride and boron containing titanium nitride coating systems were investigated. Within the presented work it is demonstrated that vanadium-doped chromium nitride layers have a high wear reduction potential for hot forging dies.",
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AU - Braeuer, G.

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