Investigation of tribological system surfaces of high-speed rolling element bearings by AES, XPS and SIMS

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Authors

  • Ullrich Gunst
  • Jérôme Guillot
  • Nathalie Valle
  • Wolf Rüdiger Zabel
  • Henri Noël Migeon
  • Gerhard Poll
  • Heinrich Franz Arlinghaus

Research Organisations

External Research Organisations

  • University of Münster
  • Centre de Recherche Public – Gabriel Lippmann Informatics, Systems and Collaboration (ISC)
  • Schaeffler Technologies AG & Co. KG
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Details

Original languageEnglish
Title of host publicationWorld Tribology Congress 2009 - Proceedings
PublisherJapanese Society of Tribologists
Pages816
Number of pages1
ISBN (print)9784990013998
Publication statusPublished - 2009
EventWorld Tribology Congress 2009 - Kyoto, Japan
Duration: 6 Sept 200911 Sept 2009

Publication series

NameWorld Tribology Congress 2009 - Proceedings

Abstract

The compositions of boundary layers were studied within the elastohydrodynamic contact regions of tribological tested high-speed rolling element bearings. The tribological tests were performed with 6 different model lubricants (lithium soap greases). In 5 cases, primary antioxidants were added to the composition of a base lubricant to study their influence on the tribological system used. The grease service lives of 3 model lubricants showed unexpected high values and compared favorably with those of commercial standard lithium soap greases although only one additive type was used to improve the lubricant properties. The composition of the boundary layers in the raceway was influenced by the lubricant additive formulation used in the tribological tests. Low 56Fe+/C4H8 + ratios, low Fe/C ratios and high values of adsorbed and incorporated lubricant portions correlated with high lubricant service lives, whereas high oxygen incorporation was correlated to low lubricant service lives. This is an abstract of a paper presented at the Proceedings of World Tribology Conference (Kyoto, Japan 9/6-11/2009).

ASJC Scopus subject areas

Cite this

Investigation of tribological system surfaces of high-speed rolling element bearings by AES, XPS and SIMS. / Gunst, Ullrich; Guillot, Jérôme; Valle, Nathalie et al.
World Tribology Congress 2009 - Proceedings. Japanese Society of Tribologists, 2009. p. 816 (World Tribology Congress 2009 - Proceedings).

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Gunst, U, Guillot, J, Valle, N, Zabel, WR, Migeon, HN, Poll, G & Arlinghaus, HF 2009, Investigation of tribological system surfaces of high-speed rolling element bearings by AES, XPS and SIMS. in World Tribology Congress 2009 - Proceedings. World Tribology Congress 2009 - Proceedings, Japanese Society of Tribologists, pp. 816, World Tribology Congress 2009, Kyoto, Japan, 6 Sept 2009.
Gunst, U., Guillot, J., Valle, N., Zabel, W. R., Migeon, H. N., Poll, G., & Arlinghaus, H. F. (2009). Investigation of tribological system surfaces of high-speed rolling element bearings by AES, XPS and SIMS. In World Tribology Congress 2009 - Proceedings (pp. 816). (World Tribology Congress 2009 - Proceedings). Japanese Society of Tribologists.
Gunst U, Guillot J, Valle N, Zabel WR, Migeon HN, Poll G et al. Investigation of tribological system surfaces of high-speed rolling element bearings by AES, XPS and SIMS. In World Tribology Congress 2009 - Proceedings. Japanese Society of Tribologists. 2009. p. 816. (World Tribology Congress 2009 - Proceedings).
Gunst, Ullrich ; Guillot, Jérôme ; Valle, Nathalie et al. / Investigation of tribological system surfaces of high-speed rolling element bearings by AES, XPS and SIMS. World Tribology Congress 2009 - Proceedings. Japanese Society of Tribologists, 2009. pp. 816 (World Tribology Congress 2009 - Proceedings).
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abstract = "The compositions of boundary layers were studied within the elastohydrodynamic contact regions of tribological tested high-speed rolling element bearings. The tribological tests were performed with 6 different model lubricants (lithium soap greases). In 5 cases, primary antioxidants were added to the composition of a base lubricant to study their influence on the tribological system used. The grease service lives of 3 model lubricants showed unexpected high values and compared favorably with those of commercial standard lithium soap greases although only one additive type was used to improve the lubricant properties. The composition of the boundary layers in the raceway was influenced by the lubricant additive formulation used in the tribological tests. Low 56Fe+/C4H8 + ratios, low Fe/C ratios and high values of adsorbed and incorporated lubricant portions correlated with high lubricant service lives, whereas high oxygen incorporation was correlated to low lubricant service lives. This is an abstract of a paper presented at the Proceedings of World Tribology Conference (Kyoto, Japan 9/6-11/2009).",
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AU - Gunst, Ullrich

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AU - Valle, Nathalie

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AB - The compositions of boundary layers were studied within the elastohydrodynamic contact regions of tribological tested high-speed rolling element bearings. The tribological tests were performed with 6 different model lubricants (lithium soap greases). In 5 cases, primary antioxidants were added to the composition of a base lubricant to study their influence on the tribological system used. The grease service lives of 3 model lubricants showed unexpected high values and compared favorably with those of commercial standard lithium soap greases although only one additive type was used to improve the lubricant properties. The composition of the boundary layers in the raceway was influenced by the lubricant additive formulation used in the tribological tests. Low 56Fe+/C4H8 + ratios, low Fe/C ratios and high values of adsorbed and incorporated lubricant portions correlated with high lubricant service lives, whereas high oxygen incorporation was correlated to low lubricant service lives. This is an abstract of a paper presented at the Proceedings of World Tribology Conference (Kyoto, Japan 9/6-11/2009).

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