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Abstract

An investigation of the compound texture effect on the dynamic characteristics of the journal bearing film is conducted. In this work, eight dynamic coefficients of the compound textured journal bearing and critical speed of the rotor supported by textured bearings are obtained and compared. Meanwhile, the elastic deformation effect of the bearing and rotor is obtained using the continuous convolution fast Fourier transform (CC-FFT) method. It is found that the reasonably arranged compound texture brings out an obvious increment in the direct stiffness coefficients and damping coefficients compared with the simple one, which results in the high critical speed of the bearing-rotor system. The above changes are close to the texture distribution, second-layered texture length, and width-length ratios of the compound texture. Moreover, there exists a critical compound texture depth to improve the critical speed of the bearing-rotor system.

Keywords

Dynamic characteristics compound texture journal bearing CC-FFT

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References

Hamilton

Walowit

Allen

CM.

A theory of lubrication by microirregularities. ASME J Basic Eng 1966; 88: 177–185.

Etsion

Burstein

A model for mechanical seals with regular micro surface structure. Tribol Trans 1996; 39: 677–683.

Etsion

Kligerman

Halperin

Analytical and experimental investigation of laser-textured mechanical seal faces. Tribol Trans 1999; 42: 511–516.

Brizmer

Kligerman

A laser surface textured journal bearing. ASME J Tribol 2012; 134: 031702.

Kango

Sharma

Pandey

RK.

Thermal analysis of microtextured journal bearing using non-Newtonian rheology of lubricant and JFO boundary conditions. Tribol Int 2014; 69: 19–29.

Liang

Liu

Wang

, et al. Hydrodynamic lubrication of partial textured sliding journal bearing based on three-dimensional CFD. Ind Lubr Tribol 2016; 68: 106–115.

Tala-Ighil

Maspeyrot

Fillon

, et al. Effects of surface texture on journal-bearing characteristics under steady-state operating conditions. Proc IMechE, Part J: J Engineering Tribology 2007; 221: 623–633.

Tala-Ighil

Fillon

Maspeyrot

Effect of textured area on the performances of a hydrodynamic journal bearing. Tribol Int 2011; 44: 211–219.

Tala-Ighil

Fillon

A numerical investigation of both thermal and texturing surface effects on the journal bearings static characteristics. Tribol Int 2015; 90: 228–239.

10.

Khonsari

MM.

An experimental investigation of dimple effect on the Stribeck curve of journal bearings. Tribol Lett 2007; 27: 169–176.

11.

Gui

Meng

FM.

Comparative study of spherical dimple and bump effects on the tribological performances of journal bearing.

Proc IMechE, Part J: J Engineering Tribology 2018; 233: 139–157.

12.

Jiang

Gao

Dynamic analysis of the rotor supported by journal bearing with micro-spherical surface texturing. Proc IMechE, Part K: J Multi-body Dyn 2014; 228: 355–365.

13.

Yamada

Kaneko

Taura

Effect of square-dimple size on dynamic characteristics of textured journal bearings. In: Pennacchi P (ed) Proceedings of the 9th IFToMM international conference on rotor dynamics. Mechanisms and machine science, vol. 21. Cham: Springer, 2015, pp. 883–893.

14.

Yamada

Taura

Kaneko

Numerical and experimental analyses of the dynamic characteristics of journal bearings with square dimples. ASME J Tribol 2018; 140: 011703.

15.

Zhang

Wang

, et al. Experimental study on the effect of surface texture on the dynamic performance of journal bearing. Adv Manuf Automat VII 2017; 451: 131–142.

16.

Meng

Zhang

Liu

, et al. Effect of compound dimple on tribological performances of journal bearing. Tribol Int 2015; 91: 99–110.

17.

Meng

TT.

Study of tribological performances of compound dimples based on diatom shell structures. Int J Surf Sci Eng 2015; 9: 538–560.

18.

Meng

Cheng

Zou

Numerical and experimental investigation on influence of compound dimple on tribological performances for rough parallel surfaces. Ind Lubr Tribol 2017; 69: 433–446.

19.

Meng

Zhang

Effects of compound texture on noise of journal bearing. J Tribol Trans ASME 2018; 140: 031703.

20.

Meng

Gui

, et al. Experimental study of compound texture effect on acoustic performance for lubricated textured surfaces. Tribol Int 2019; 33: 47–54.

21.

Meng

Shu

Chen

Influences of operation parameters on noise of journal bearing with compound texture considering lubricant thermal effect.

Proc IMechE, Part J: J Engineering Tribology 2019; 234: 991–1006.

22.

Bruno

Patrick

Jean

Cavitation in dynamically loaded journal bearings using mobility method. Wear 1996; 193: 155–162.

23.

Lund

Thomsen

KK.

A calculation method and data for the dynamic coefﬁcients of oil-lubricated journal bearings. New York: ASME, 1978, pp. 1–28.

24.

Liu

Hua

Chen

, et al. Tribological modeling: application of fast Fourier transform. Tribol Int 2007; 40: 1284–1293.

25.

Liu

Wang

Studying contact stress fields caused by surface tractions with a discrete convolution and fast Fourier Transform algorithm. ASME J Tribol 2002; 124: 36–45.

26.

Lund

JW.

Review of the concept of dynamic coefficients for fluid film journal bearings. ASME J Tribol 1987; 109: 37–41.

27.

Klit

Lund

JW.

Calculation of the dynamic coefficients of a journal bearing, using a variational approach. ASME J Tribol 1986; 108: 421–424.

28.

Hori

A theory of oil whip. J Appl Mech T ASME 1959; 26: 189–198.

29.

Ebrat

Mourelatos

Vlahopoulos

, et al. Calculation of journal bearing dynamic characteristics including journal misalignment and bearing structural deformation. J Tribol Trans ASME 2004; 47: 94–102.

30.

Chang

Zheng

PY.

Experimental determination of the stiffness and damping coefficients of fluid film bearings by means of step forces. Tribol Int 1985; 18: 81–91.

31.

Chen

The analysis of elastohydrodynamic lubrication in the textured journal bearing.

Proc IMechE, Part J: J Engineering Tribology 2016; 230: 1197–1208.

32.

Adams

Jr.

Rotating machinery vibration: From analysis to troubleshooting. 2nd ed. New York: CRC Press, 2009.

33.

Zeidan

Herbage

BS.

Fluid film bearing fundamentals and failure analysis. Proc Turbomach Symp 1991; 12: 161–186.

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Dynamic characteristics of compound textured journal bearing

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