Zusammenfassung
Die Temperatur ist eine fundamentale Beanspruchungs- bzw. Einflussgröße für alle tribologischen Systeme. In herkömmlichen Tribosystemen, wie z. B. Gleitlagern, führt normalerweise ein flüssiger Zwischenstoff die Reibungswärme weitgehend aus dem Reibkontakt ab, senkt die Reibungszahlen und schützt vor adhäsiven Verschleißmechanismen. Mit den thermischen Stabilitätsgrenzen flüssiger Schmierstoffe ergeben sich unter Einbeziehung der polymeren Werkstoffe obere Anwendungstemperaturen von etwa 400 °C. Hochtemperaturtribologie ist die Tribologie von Ingenieurwerkstoffen und technischen Systemen oberhalb dieser Grenze.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
Kapitel 18
Berger, L.-M., S. Saaro und M. Woydt: Reib-/Gleitverschleiß von thermisch gespritzten Hartmeallschichten Jahrbuch Oberflächentechnik 2007, Band 63, Herausgeber: R. Suchentrunk.Bad Saulgau: Eugen G. Leuze Verlag, 2007, S. 242–267 (ISBN 978-3-87480-234-5)
Berns, H. and A. Fischer: Tribological stability of metallic materials at elevated temperatures. WEAR 162-164 (1993) 441–449
Buckley, D.H.: Friction characteristics in vacuum of single and polycrystalline aluminium oxide in contact with themselves and with various metals, ASLE Transactions 10, (1967)134–145
Crook, P.: The development of a series of wear resistant materials with properties akin to those of the cobalt-chromium alloys, Proc. Int. Conf. Wear of Materials, 1981, Vol. I, p. 202–209
Gienau, M., N. Kelling, N. Köhler and M. Woydt: Ultra-Hightemperature-Tribometer up to 1600 °C. Ceramic Engineering and Science Proceedings, 2004, Vol. 25, issue 4, p. 333–339, ISBN 0196-6219
Havstad, P.H., I.J. Garwin and W.R. Wade, A ceramic insert uncooled diesel engine, SAE 860447
Hong, H., R.F. Hochman and T.F.J. Quinn: A new approach to the oxidational theory of mild wear, STLE Transactions, 31/1 (1987) 71–75
Inman, I.A., S.R. Rose and P.K. Datta: Studies of high temperature sliding wear of metallic dissimilar interfaces II: Incoloy MA956 versus Stellite 6. Tribology International 39 (2006) 1361–1375
Klaffke, D., T. Carstens and A. Bernerji: Influence of grain refinement on the high temperature fretting behaviour of IN 738 LC. WEAR, Vol. 160 (1993,) 361–366
Magnéli, A.: Structures of the ReO3-type with recurrent dislocations of atoms: „Homologous series“ of molybdenum and tungsten oxides, Acta Crystallographica, 6, (1953) 495–500
Mörgenthaler, K.D.: Keramikteile im Motorenbau, Anforderungen und Eigenschaften. In: mechanische Eigenschaften keramischer Konstruktionswerkstoffe, DGM Informationsgesellschaft, 1993, ISBN 3- 88355-194-5, p. 17–28
Scott, F.H.: The influence of oxidation on the wear of metals and alloys. New Directions in Tribology: Plenary and invited papers presented at the First World Tribology Congress, London, UK, 08.-12. September 1997, Editor: I.M. Hutchings, ISBN 1-86058-099-8, pp.
Semenov, A.P: Tribology at high temperatures Tribology International, 28/1 (1995) 45–49.
Sliney, H.E.: Solid lubricant materials for high temperatures – a review. Tribology International, October 1982, p. 303–315
Skopp, A. and M. Woydt: Ceramic-ceramic composite materials with improved friction and wear properties. Tribology International, 25/11 (1992) 61–70
Spaltmann D., M. Hartelt and M. Woydt: Triboactive Materials for Dry Reciprocating Sliding Motion at Ultrahigh-Frequency. WEAR 266/1-2 (2009) 67–174
Thoma. M.: High wear resistance at high temperatures by Co+Cr2O3 electrodeposited composite coating. WEAR, 162-164 (1993) 1045–1047
Tkachenko, Y. G., V.N. Klimenko, I.N. Gorbatov, V.A. Maslyuk and D.Z. Yurchenko: Friction and wear of chromium carbide nickel alloys at high temperatures of 20–1.000 °C. Soviet Powder Metallurgy and Metal Ceramics, 17/11 (1978) 864–867
Woydt, M.: Tribological characteristics of polycrystalline titaniumdioxides with planar defects. Tribology Letters, 2000, Vol. 8, No. 2-3, Special issue „Lubricious Oxides“, p. 117–130
Woydt, M. , K.-H. Habig: High temperature tribology of ceramics. Tribology International, 22/22 (1989) 75–88
Woydt, M., J. Kadoori, H. Hausner und K.-H. Habig: Unlubricated tribological behaviour of various zirconia based ceramics.. J. of European Ceramic Society 7/4 (1991) 123–130
Woydt, M., A. Skopp, I. Dörfel and K. Witke: Wear engineering oxides/Anti-wear oxides. Wear 218/1 (1998) 84–95
Yarim, R. M. Woydt und R- Wäsche: Gleitverschleißverhalten von SiC-TiC-TiB2-Verbundwerkstoffen bis 800 °C und 4 m/s. Tribologie&Schmierungstechnik, 50/2 (2003) 5–15
Rights and permissions
Copyright information
© 2010 Vieweg+Teubner Verlag | Springer Fachmedien Wiesbaden GmbH
About this chapter
Cite this chapter
Czichos, H., Habig, KH. (2010). Hochtemperaturtribologie. In: Tribologie-Handbuch. Vieweg+Teubner. https://doi.org/10.1007/978-3-8348-9660-5_18
Download citation
DOI: https://doi.org/10.1007/978-3-8348-9660-5_18
Publisher Name: Vieweg+Teubner
Print ISBN: 978-3-8348-0017-6
Online ISBN: 978-3-8348-9660-5
eBook Packages: Computer Science and Engineering (German Language)