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01-09-2018 | Original Paper

Surface Deteriorations During Scuffing Process of Steel and Analysis of Their Contribution to Wear Using In Situ Synchrotron X-Ray Diffraction and Optical Observations

Authors: Takashi Izumi, Kazuyuki Yagi, Jun Koyamachi, Koji Saito, Shuzo Sanda, Satoshi Yamaguchi, Hidenori Ikehata, Yasuhiro Yogo, Joichi Sugimura

Published in: Tribology Letters | Issue 3/2018

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Abstract

In a previous study, we developed a novel in situ analysis and observation system that allows for simultaneous synchrotron X-ray diffraction (XRD) and optical observations of a frictional surface. This in situ system was used to investigate the scuffing phenomena of SUJ2 bearing steel (AISI 52100); characteristic surface deteriorations occurred during the scuffing process, including plastic flow, heat-spot formation, austenite transformation, and a decrease in the width of the XRD peaks (indicating a decrease of dislocations and strain). These surface deteriorations are not observed during normal wear, hence it is possible that they cause catastrophic wear during the scuffing of steel. In this study, to elucidate the scuffing mechanism of steel, we focused on the following two points: (1) whether the above surface deteriorations are unique to SUJ2 steel or whether they occur in general steels as well, and (2) the extent to which these surface deteriorations contribute to the wear amount. To achieve these objectives, we performed scuffing tests on four types of steel using the previously developed in situ system. In particular, we focused on the first stage of the scuffing process. The present test results suggest that these surface deteriorations also occur in general steels, and that plastic flow and heat-spot formation, which originate from the same phenomenon, are the dominant contributors to the wear amount during the scuffing of steel. Furthermore, the wear amount per unit plastic flow appears to be independent of steel composition.

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Dyson, A.: Scuffing—a review. Tribol. Int. 8(2), 77–87 (1975)CrossRef

Dyson, A.: Scuffing—a review: part 2: the mechanism of scuffing. Tribol. Int. 8(3), 117–122 (1975)CrossRef

Ludema, K.C.: A review of scuffing and running-in of lubricated surfaces, with asperities and oxides in perspective. Wear 100(1–3), 315–331 (1984)CrossRef

Bowman, W.F., Stachowiak, G.W.: A review of scuffing models. Tribol. Lett. 2(2), 113–131 (1996)CrossRef

Rogers, M.D.: Metallographic characterisation of transformation phases on scuffed cast-iron diesel engine components. Tribology 2(2), 123–127 (1969)CrossRef

Rogers, M.D.: The mechanism of scuffing in diesel engines. Wear 15(2), 105–116 (1970)CrossRef

Torrance, A.A., Cameron, A.: Surface transformations in scuffing. Wear 28(3), 299–311 (1974)CrossRef

Rogers, H.C.: Adiabatic plastic deformation. Annu. Rev. Mater.Sci. 9(1), 283–311 (1979)CrossRef

Hershberger, J., Ajayi, O.O., Zhang, J., Yoon, H., Fenske, G.R.: Formation of austenite during scuffing failure of SAE 4340 steel. Wear 256(1–2), 159–167 (2004)CrossRef

10.

Ajayi, O.O., Hersberger, J.G., Zhang, J., Yoon, H., Fenske, G.R.: Microstructural evolution during scuffing of hardened 4340 steel—implication for scuffing mechanism. Tribol. Int. 38(3), 277–282 (2005)CrossRef

11.

Hershberger, J., Ajayi, O.O., Zhang, J., Yoon, H., Fenske, G.R.: Evidence of scuffing initiation by adiabatic shear instability. Wear 258(10), 1471–1478 (2005)CrossRef

12.

Ajayi, O.O., Lorenzo-Martin, C., Erck, R.A., Fenske, G.R.: Scuffing mechanism of near-surface material during lubricated severe sliding contact. Wear 271(9–10), 1750–1753 (2011)CrossRef

13.

Han, J.M., Zhang, R., Ajayi, O.O., Barber, G.C., Zou, Q., Guessous, L., Schall, D., Alnabulsi, S.: Scuffing behaviour of gray iron and 1080 steel in reciprocating and rotational sliding. Wear 271(9–10), 1854–1861 (2011)CrossRef

14.

Ajayi, O.O., Lorenzo-Martin, C., Erck, R.A., Fenske, G.R.: Analytical predictive modeling of scuffing initiation in metallic materials in sliding contact. Wear 301(1–2), 57–61 (2013)CrossRef

15.

Enthoven, J.C., Cann, P.M., Spikes, H.A.: Temperature and scuffing. Tribol. Trans. 36(2), 258–266 (1993)CrossRef

16.

Yagi, K., Ebisu, Y., Sugimura, J., Kajita, S., Ohmori, T., Suzuki, A.: In situ observation of wear process before and during scuffing in sliding contact. Tribol. Lett. 43(3), 361–368 (2011)CrossRef

17.

Li, H., Yagi, K., Sugimura, J., Kajita, S., Shinyoshi, T.: Role of wear particles in scuffing initiation. Tribol. Online 8(5), 285–294 (2013)CrossRef

18.

Matsuzaki, Y., Yagi, K., Sugimura, J.: In situ fast and long observation system for friction surfaces during scuffing of steel. Wear 386–387, 165–172 (2017)CrossRef

19.

Miyajima, M.,. Kitamura, K., Matsumoto, K.: In situ raman tribometry for the formation and removal behavior of FeS₂ tribofilm in the scuffing process. Tribol. Online 11(2), 382–388 (2016)CrossRef

20.

Kajita, S., Yagi, K., Izumi, T., Koyamachi, J., Tohyama, M., Saito, K., Sugimura, J.: In situ X-ray diffraction study of phase transformation of steel in scuffing process. Tribol. Lett. 57(1), 1–11 (2015)CrossRef

21.

Yagi, K., Kajita, S., Izumi, T., Koyamachi, J., Tohyama, M., Saito, K., Sugimura, J.: Simultaneous synchrotron X-ray diffraction, near-infrared, and visible in situ observation of scuffing process of steel in sliding contact. Tribol. Lett. 61(19), 1–16 (2016)

22.

Japan Institute of Metals and Materials: Metal Data Book. Maruzen, Tokyo (1974) (in Japanese)

23.

Hirose, Y.: TOYOTA beamline BL33XU. In: SPring-8 Research Frontiers 2009, p. 170 (2010)

24.

Nonaka, T., Dohmae, K., Hayashi, Y., Araki, T., Yamaguchi, S., Nagai, Y., Hirose, Y., Tanaka, T., Kitamura, H., Uruga, T., Yamazaki, H., Yumoto, H., Ohashi, H., Goto, S.: Toyota Beamline (BL33XU) at SPring-8. In: Proceedings of the 12th International Conference on Synchrotron Radiation Instrumentations (2015)

25.

Mohrbacher, H., Blanpain, B., Celis, J.P., Roos, J.R., Stals, L., Van Stappen, M.: Oxidational wear of TiN coatings on tool steel and nitrided tool steel in unlubricated fretting. Wear 188, 130–137 (1995)CrossRef

26.

Fouvry, S., Kapsa, P., Vincent, L.: Quantification of fretting damage. Wear 200, 186–205 (1996)CrossRef

Title: Surface Deteriorations During Scuffing Process of Steel and Analysis of Their Contribution to Wear Using In Situ Synchrotron X-Ray Diffraction and Optical Observations
Authors: Takashi Izumi
Kazuyuki Yagi
Jun Koyamachi
Koji Saito
Shuzo Sanda
Satoshi Yamaguchi
Hidenori Ikehata
Yasuhiro Yogo
Joichi Sugimura
Publication date: 01-09-2018
Publisher: Springer US
Published in: Tribology Letters / Issue 3/2018
Print ISSN: 1023-8883
Electronic ISSN: 1573-2711
DOI: https://doi.org/10.1007/s11249-018-1062-6

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