Design and optimization of fluid lubricated bearings operated with extreme working performances—a comprehensive review

Guohua Zhang; Ming Huang; Gangli Chen; Jiasheng Li; Yang Liu; Jianguo He; Yueqing Zheng; Siwei Tang; Hailong Cui

doi:10.1088/2631-7990/ad1825

Fluid lubricated bearings have been widely adopted as support components for high-end equipment in metrology, semiconductor devices, aviation, strategic defense, ultraprecision manufacturing, medical treatment, and power generation. In all these applications, the equipment must deliver extreme working performances such as ultraprecise movement, ultrahigh rotation speed, ultraheavy bearing loads, ultrahigh environmental temperatures, strong radiation resistance, and high vacuum operation, which have challenged the design and optimization of reliable fluid lubricated bearings. Breakthrough of any related bottlenecks will promote the development course of high-end equipment. To promote the advancement of high-end equipment, this paper reviews the design and optimization of fluid lubricated bearings operated at typical extreme working performances, targeting the realization of extreme working performances, current challenges and solutions, underlying deficiencies, and promising developmental directions. This paper can guide the selection of suitable fluid lubricated bearings and optimize their structures to meet their required working performances.

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Reference (324)

Yan K, Zhang J H, Hong J, Wang Y T and Zhu Y S 2016 Structural optimization of lubrication device for high speed angular contact ball bearing based on internal fluid flow analysis Int. J. Heat Transfer 95540-50

Cui H L, Zhao Y and Dong W C 2021 Research on life prediction method of rolling bearing based on deep learning and voice interaction technology Int. J. Speech Technol. (https://doi.org/10.1007/s10772-021-09873-5)

Lin J R 2000 Surface roughness effect on the dynamic stiffness and damping characteristics of compensated hydrostatic thrust bearings Int. J. Mach. Tools Manuf. 401671-89

Wang Y, Tong H, Sima H, Wang J Y, Sun J J and Huang D G 2019 Experimental study on aerodynamic performance of deformable blade for vertical axis wind turbine Energy 181187-201

Sharma S C and Singh A 2023 A study of double layer conical porous hybrid journal bearing operated with non-Newtonian lubricant Tribol. Int. 179108183

Sadabadi H and Nezhad A S 2020 Nanofluids for performance improvement of heavy machinery journal bearings: a simulation study Nanomaterials 102120

Du J L and Liang G Z 2019 Performance comparative analysis of hydrostatic bearings lubricated with low-viscosity cryogenic fluids Tribol. Int. 137139-51

Zhang W M, Zhou J B and Meng G 2011 Performance and stability analysis of gas-lubricated journal bearings in MEMS Tribol. Int. 44887-97

Kumar C and Sarangi S 2022 Dynamic behavior of self-acting gas-lubricated long journal bearing Mech. Res. Commun. 124103950

Sharma S C, Phalle V M and Jian S C 2011 Performance analysis of a multirecess capillary compensated conical hydrostatic journal bearing Tribol. Int. 44617-26

Qiang M C, Zhao Q, Yan S H, Liu X, Hou Y and Lai T W 2022 Performance prediction of high-speed hydrogen gas-lubricated herringbone grooved journal bearing Appl. Sci. 126432

Yabe H and Ishida H 1991 A study on the running accuracy of an externally pressurized gas thrust bearing: rotor run-out characteristics JSME Int. J. III 34333-8

Zhang P H, Chen Y L and Zha J 2017 Relationship between geometric errors of thrust plates and error motions of hydrostatic thrust bearings under quasi-static condition Precis. Eng. 50119-31

Zoupas L, Wodtke M, Papadopoulos C I and Wasilczuk M 2019 Effect of manufacturing errors of the pad sliding surface on the performance of the hydrodynamic thrust bearing Tribol. Int. 134211-20

Cui H L, Wang Y, Yue X B, Huang M and Wang W 2017 Effects of manufacturing errors on the static characteristics of aerostatic journal bearings with porous restrictor Tribol. Int. 115246-60

Kim K M and Kim K W 1992 An analytical study on the rotational accuracy of externally pressurized air journal bearing JSME Int. J. III 35485-92

Yabe H 1994 A study on run-out characteristics of externally pressurized gas journal bearing: rotor run-out characteristics JSME Int. J. C 37355-61

Zhang P H 2020 A study on accuracy of porous journal air bearing Precis. Eng. 6642-51

Wang H W, Xiang J W, Zhao X F and Li Y L 2023 A kinematic precision reliability evaluation method for rotor-bearing systems considering multi-source wear degradations and random errors Int. J. Adv. Manuf. Technol. 1244159-73

Cappa S, Reynaerts D and Al-Bender F 2014 Reducing the radial error motion of an aerostatic journal bearing to a nanometre level: theoretical modelling Tribol. Lett. 5327-41

Martin D L, Tabenkin A N and Parsons F G 1995 Precision spindle and bearing error analysis Int. J. Mach. Tools Manuf. 35187-93

Lou M Y, Bareille O, Chai W Q, Ichchou M and Chen W 2020 Global sensitivity analysis of static characteristics of tilting-pad journal bearing to manufacturing tolerances Tribol. Int. 149105734

Khim G, Oh J S and Park C H 2014 Analysis of 5-DOF motion errors influenced by the guide rails of an aerostatic linear motion stage Int. J. Precis. Eng. Manuf. 15283-90

Aleyaasin M, Whalley R and Ebrahimi M 2000 Error correction in hydrostatic spindles by optimal bearing tuning Int. J. Mach. Tools Manuf. 40809-22

Ro S K, Kim S, Kwak Y and Park C H 2010 A linear air bearing stage with active magnetic preloads for ultraprecise straight motion Precis. Eng. 34186-94

Zhang P H and Zha J 2021 Dynamic accuracy model of porous journal air bearing considering rotational speed Tribol. Int. 161107064

Zhang P H 2021 Accuracy prediction model of an orifice-compensated aerostatic bearing Precis. Eng. 72837-46

Yin T F, To S, Du H H and Zhang G Q 2022 Effects of wheel spindle error motion on surface generation in grinding Int. J. Mech. Sci. 218107046

Lu Z W, Zhang J N and Liu B 2021 Research on the fluctuation of the velocity and pressure of the flow field of an aerostatic bearing with a multi-hole integrated restrictor Proc. Inst. Mech. Eng. J 2352007-20

Dal A and Karaçay T 2021 Pneumatic hammer instability in the aerostatic journal bearing-rotor system: a theoretical and experimental analyses Proc. Inst. Mech. Eng. J 235524-43

Kodnyanko V, Shatokhin S, Kurzakov A and Pikalov Y 2021 Theoretical analysis of compliance and dynamics quality of a lightly loaded aerostatic journal bearing with elastic orifices Precis. Eng. 6872-81

Ye Y X, Chen X D, Hu Y T and Luo X 2010 Effects of recess shapes on pneumatic hammering in aerostatic bearings Proc. Inst. Mech. Eng. J 224231-7

Cui H L, Gong W W, Zheng Y Q, Li Y F, Wang W and Jiang Z Y 2021 A simplified FEM analysis on the static performance of aerostatic journal bearings with orifice restrictor Proc. Inst. Mech. Eng. J 2351379-89

Huang M, Cui H L, Liu P K, Li M Y, Zheng Y Q and Jiang Z Y 2019 A theoretical and experimental study on the stiffness of aerostatic thrust bearings with vacuum preloading Proc. Inst. Mech. Eng. J 233256-70

Branch H D, Watkins C B and Eronini I E 1984 Vibration of a hydrostatic gas bearing due to supply pressure oscillations Wear 95199-212

Chen Y S, Chiu C C and Cheng Y D 2010 Influences of operational conditions and geometric parameters on the stiffness of aerostatic journal bearings Precis. Eng. 34722-34

Zhang J B, Han D J, Song M B, Xie Z L, Rao Z S and Zou D L 2021 Theoretical and experimental investigation on the effect of supply pressure on the nonlinear behaviors of the aerostatic bearing-rotor system Mech. Syst. Signal Process. 158107775

Chen X D and He X M 2006 The effect of the recess shape on performance analysis of the gas-lubricated bearing in optical lithography Tribol. Int. 391336-41

Tomar A K and Sharma S C 2022 Non-Newtonian lubrication of hybrid multi-recess spherical journal bearings with different geometric shapes of recess Tribol. Int. 171107579

Hashimoto H and Namba T 2009 Optimization of groove geometry for a thrust air bearing according to various objective functions J. Tribol. 131041704

Du J J, Zhang G Q, Liu T and To S 2014 Improvement on load performance of externally pressurized gas journal bearings by opening pressure-equalizing grooves Tribol. Int. 73156-66

Wu H, Huang Y, Cui H L and Rong Y M 2021 A passive compensated method with hydraulic transmission for static infinite stiffness of thrust bearing Tribol. Int. 163107193

Belforte G, Colombo F, Raparelli T, Trivella A and Viktorov V 2013 Experimental analysis of air pads with micro holes Tribol. Trans. 56169-77

Miyatake M and Yoshimoto S 2010 Numerical investigation of static and dynamic characteristics of aerostatic thrust bearings with small feed holes Tribol. Int. 431353-9

Fan K C, Ho C C and Mou J I 2002 Development of a multiple-microhole aerostatic air bearing system J. Micromech. Microeng. 12636-43

He X M, Chen X D, Zeng L Z and Yu X Z 2008 Analysis of the positioning accuracy of ultra-precision stage with air-thrust bearings J. Huazhong Univ. Sci. Technol. 368-11

Gao Q, Chen W Q, Lu L H, Huo D H and Cheng K 2019 Aerostatic bearings design and analysis with the application to precision engineering: state-of-the-art and future perspectives Tribol. Int. 1351-17

Khatri C B and Sharma S C 2018 Analysis of textured multi-lobe non-recessed hybrid journal bearings with various restrictors Int. J. Mech. Sci. 145258-86

Otsu Y, Somaya K and Yoshimoto S 2011 High-speed stability of a rigid rotor supported by aerostatic journal bearings with compound restrictors Tribol. Int. 449-17

Zheng Y Q, Yang G W, Cui H L and Hou Y 2020 Improving the stiffness of the aerostatic thrust bearing by using a restrictor with multi-orifice series Proc. Inst. Mech. Eng. J 2341881-91

Sun N, Yang C, Song J F, Li Y T, Yang W B, Zhou Y L, Luo D L and Zhang Q P 2023 Tailoring thermal resistance of porous materials with void filling for improved hydrogen adsorption Int. J. Hydrog. Energy 488588-95

Singh A and Sharma S C 2022 Behaviour of conical porous hybrid journal bearing operated with MHD lubricant considering influence of surface irregularities Tribol. Int. 174107730

Cui H L, Wang Y, Zhang M, Wang W and Zhao C J 2018 A fractal method to calculate the permeability for compressible gas flow through a porous restrictor in aerostatic bearings Int. J. Heat Mass Transfer 121437-52

Wang W, Cheng X H, Zhang M, Gong W W and Cui H L 2020 Effect of the deformation of porous materials on the performance of aerostatic bearings by fluid-solid interaction method Tribol. Int. 150106391

Zeng C Q, Wang W, Cheng X H, Zhao R and Cui H L 2021 Three-dimensional flow state analysis of microstructures of porous graphite restrictor in aerostatic bearings Tribol. Int. 159106955

Horikawa O and Shimokohbe A 1990 An active air bearing: control of radial axis motion and stiffness JSME Int. J. III 3355-60

Al-Bender F 2009 On the modelling of the dynamic characteristics of aerostatic bearing films: from stability analysis to active compensation Precis. Eng. 33117-26

Maamari N, Krebs A, Weikert S and Wegener K 2019 Centrally fed orifice based active aerostatic bearing with quasi-infinite static stiffness and high servo compliance Tribol. Int. 129297-313

Al-Bender F and Brussel H V 1997 Active aerostatic bearing through control of film geometry Proc. 9th Int. Precision Engineering pp 389-92

Luo X H, Han B, Chen X D, Li X P and Jiang W 2021 Multi-physics modeling of tunable aerostatic bearing with air gap shape compensation Tribol. Int. 153106587

Santos I F, Nicoletti R and Scalabrin A 2004 Feasibility of applying active lubrication to reduce vibration in industrial compressors J. Eng. Gas Turbines Power 126848-54

Park C H, Oh Y J, Shamoto E and Lee D W 2006 Compensation for five DOF motion errors of hydrostatic feed table by utilizing actively controlled capillaries Precis. Eng. 30299-305

Morosi S and Santos I F 2011 Active lubrication applied to radial gas journal bearings. Part I: modeling Tribol. Int. 441949-58

Pierart F G and Santos I F 2016 Active lubrication applied to radial gas journal bearings. Part 2: modelling improvement and experimental validation Tribol. Int. 96237-46

Feng K, Shi M H, Gong T, Liu Y Y and Zhu J 2017 A novel squeeze-film air bearing with flexure pivot-tilting pads: numerical analysis and measurement Int. J. Mech. Sci. 13441-50

Colombo F, Lentini L, Raparelli T, Trivella A and Viktorov V 2021 Design and analysis of an aerostatic pad controlled by a diaphragm valve Lubricants 947

Liu Y, Wan M, Xiao Q B and Qin X B 2022 Combined predictive and feedback contour error control with dynamic contour error estimation for industrial five-axis machine tools IEEE Trans. Ind. Electron. 696668-77

Du J J, Liu D, Zhang G Q and Zhu J J 2010 Study of self-excited vibration for externally pressurized gas thrust bearing with circumferential groove Lubr. Eng. 359-12

Li Y F, Yin Y H, Yang H, Liu X N, Mo J and Cui H L 2017 Modeling for optimization of circular flat pad aerostatic bearing with a single central orifice-type restrictor based on CFD simulation Tribol. Int. 109206-16

He D X, Sheng B H, Zhou Z D, Suo Q, Li Y F and Liu C Y 2009 Improvement of diamond-cutting surface by means of porous bearing laminar flow Chin. Mech. Eng. 201180-3

Kong Z K and Tao J Z 2013 Pneumatic hammer in aerostatic thrust bearings with single orifice compensation Proc. SPIE 875920-26

Zheng Y Q, Yang G W, Cui H L and Hou Y 2020 Pneumatic stability analysis of single-pad aerostatic thrust bearing with pocketed orifice Proc. Inst. Mech. Eng. J 2341857-66

Aoyama T, Kakinuma Y and Kobayashi Y 2006 Numerical and experimental analysis for the small vibration of aerostatic guideways CIRP Ann. 55419-22

Eleshaky M E 2009 CFD investigation of pressure depressions in aerostatic circular thrust bearings Tribol. Int. 421108-17

Feng K, Wang P, Zhang Y J, Hou W J, Li W J, Wang J W and Cui H L 2021 Novel 3D printed aerostatic bearings for the improvement of stability: theoretical predictions and experimental measurements Tribol. Int. 163107149

Yoshimura T, Hanafusa T, Kitagawa T, Hirayama T, Matsuoka T and Yabe H 2012 Clarifications of the mechanism of nano-fluctuation of aerostatic thrust bearing with surface restriction Tribol. Int. 4829-34

Li W J, Zhang Y J, Wang P, Feng K, Cui H L and Zheng Y Q 2022 Novel full-region model of inherent orifice aerostatic bearings considering air flow in orifice and clearance Lubr. Sci. 34258-74

Chen X D, Chen H, Luo X, Ye Y X, Hu Y T and Xu J Q 2011 Air vortices and nano-vibration of aerostatic bearings Tribol. Lett. 42179-83

Talukder H M and Stowell T B 2003 Pneumatic hammer in an externally pressurized orifice-compensated air journal bearing Tribol. Int. 36585-91

Kong Z K, Tao J Z, Ji F and Xia H 2013 Experimental study on pneumatic hammer of aerostatic bearings with supply holes Lubr. Eng. 3866-70

Ma W, Cui J W, Liu Y M and Tan J B 2016 Improving the pneumatic hammer stability of aerostatic thrust bearing with recess using damping orifices Tribol. Int. 103281-8

Otsu Y, Miyatake M and Yoshimoto S 2011 Dynamic characteristics of aerostatic porous journal bearings with a surface-restricted layer J. Tribol. 133011701

Li Y T, Wan X and Li X L 2017 Microvibration suppression of an aerostatic thrust bearing adopting flow field disturbance structure Adv. Mech. Eng. 91-9

Yu P L, Lu J, Luo Q, Li G H and Yin X X 2022 Optimization design of aerostatic bearings with square micro-hole arrayed restrictor for the improvement of stability: theoretical predictions and experimental measurements Lubricants 10295

Cui H L, Wang Y, Wang B R, Yang H and Xia H 2018 Numerical simulation and experimental verification of the stiffness and stability of thrust pad aerostatic bearings Chin. J. Mech. Eng. 3123

Kawai T, Ebihara K and Takeuchi Y 2005 Improvement of machining accuracy of 5-axis control ultraprecision machining by means of laminarization and mirror surface finishing CIRP Ann. 54329-32

Tomar A K and Sharma S C 2022 Study on surface roughness and piezo-viscous shear thinning lubricant effects on the performance of hole-entry hybrid spherical journal bearing Tribol. Int. 168107349

Larsen J S, Santos I F and von Osmanski S 2016 Stability of rigid rotors supported by air foil bearings: comparison of two fundamental approaches J. Sound Vib. 381179-91

Howard S A 1999 Rotordynamics and design methods of an oil-free turbocharger Tribol. Trans. 42174-9

Xie W S, Lin X, Wang W T, Shen Q and He Z P 2018 Review of technique application and performance evaluation for aerodynamic elastic foil gas bearing in aero-engine Lubr. Eng. 43136-47

Hwang S H, Moon C G, Kim T H, Lee J, Cho K S, Ha K K and Lee C H 2019 Rotordynamic performance measurements and predictions of a FCEV air compressor supported on gas foil bearings Tribol. Lubr. 3544-51

Schiffmann J and Favrat D 2009 Experimental investigation of a direct driven radial compressor for domestic heat pumps Int. J. Refrig. 321918-28

Pattnayak M R, Ganai P, Pandey P K, Dutt J K and Fillon M 2022 An overview and assessment on aerodynamic journal bearings with important findings and scope for explorations Tribol. Int. 174107778

Liu W H, Bättig P, Wagner P H and Schiffmann J 2021 Nonlinear study on a rigid rotor supported by herringbone grooved gas bearings: theory and validation Mech. Syst. Signal Process. 146106983

Diehl M, Schreiber C and Schiffmann J 2020 The role of Reynolds number effect and tip leakage in compressor geometry scaling at low turbulent Reynolds numbers J. Turbomach. 142031003

Liu W H, Gjika K and Schiffmann J 2023 Design and experimental investigation of a herringbone grooved gas bearing supported turbocharger Mech. Syst. Signal Process. 186109828

Gu L L, Guenat E and Schiffmann J 2020 A review of grooved dynamic gas bearings Appl. Mech. Rev. 72010802

Li Y Y, Liu J F, Li L L and Yang D S 2018 Effect of environmental pressure on dynamic characteristics of aerodynamic gas bearing of boost turbo expander IOP Conf. Ser.: Mater. Sci. Eng. 382032018

Bediz B, Gozen B A, Korkmaz E and Ozdoganlar O B 2014 Dynamics of ultra-high-speed (UHS) spindles used for micromachining Int. J. Mach. Tools Manuf. 8727-38

Pattnayak M R, Pandey R K and Dutt J K 2021 Effects of new micro-pocketed bore surface topographies on the performance behaviours of aerodynamic journal bearing Surf. Topography: Metrol. Prop. 9025001

Yu Y L, Pu G, Jiang T C and Jiang K 2020 A dragonfly wing inspired biomimetic aerodynamic thrust bearing for increased load capacity Int. J. Mech. Sci. 176105550

Blok H and von Rossum J J 1953 The foil bearing-a new departure in hydrodynamic lubrication Lubr. Eng. 9316-20

Ghalayini I and Bonello P 2022 Nonlinear and linearised analyses of a generic rotor on single-pad foil-air bearings using Galerkin Reduction with different applied air film conditions J. Sound Vib. 525116774

Guo Z Y, Lyu P, Feng K and Liu W H 2018 Measurement and prediction of nonlinear dynamics of a gas foil bearing supported rigid rotor system Measurement 121205-17

Xu Z N, Li C L and Du J J 2021 Modeling and static characteristics study of the double-layer bump gas foil bearing Tribol. Int. 164107202

Heshmat H, Shapiro W and Gray S 1982 Development of foil journal bearings for high load capacity and high speed whirl stability J. Tribol. 104149-56

Mahne M, Bauer M, Lehn A and Schweizer B 2019 An experimental investigation on the influence of an assembly preload on the hysteresis, the drag torque, the lift-off speed and the thermal behavior of three-pad air foil journal bearings Tribol. Int. 137113-26

Zhao X W and Xiao S H 2021 A three-dimensional model of gas foil bearings and the effect of misalignment on the static performance of the first and second generation foil bearings Tribol. Int. 156106821

Lyu P, Feng K, Zhu B H, Zhang K and Sun D L 2019 The performance evaluation of the promising high-stability foil bearings basing with flexure pivot tilting pads Mech. Syst. Signal Process. 134106313

Ribeiro E A, Alves D S, Cavalca K L and Bavastri C A 2021 Stability analysis and optimization of a hybrid rotating machinery support combining journal bearings with viscoelastic supports Mach. Mech. Theory 156104166

Feng K, Zhao X Y, Huo C J and Zhang Z M 2016 Analysis of novel hybrid bump-metal mesh foil bearings Tribol. Int. 103529-39

Pham M N and Ahn H J 2014 Experimental optimization of a hybrid foil-magnetic bearing to support a flexible rotor Mech. Syst. Signal Process. 46361-72

van Osmanski S and Santos I F 2021 Gas foil bearings with radial injection: multi-domain stability analysis and unbalance response J. Sound Vib. 508116177

Park J, Kim D and Sim K 2021 Rotordynamic analysis of piezoelectric gas foil bearings with a mechanical preload control based on structural parameter identifications Appl. Sci. 112330

Feng K, Gao Y L, Yu K, Guan H Q, Wu Y H and Guo Z Y 2019 Characterization of a controllable stiffness foil bearing with shape memory alloy springs Tribol. Int. 136360-71

Guan H Q, Wei K X, Mao W G, He Q B and Zou H X 2023 Study on the static and dynamic performance of active bump-metal mesh foil bearings Mech. Syst. Signal Process. 184109690

Delgado A and Ertas B 2019 Dynamic characterization of a novel externally pressurized compliantly damped gas-lubricated bearing with hermetically sealed squeeze film damper modules J. Eng. Gas Turbines Power 141021028

Sim K, Yong-Bok L, Kim T H and Lee J 2012 Rotordynamic performance of shimmed gas foil bearings for oil-free turbochargers J. Tribol. 134031102

Sim K, Lee Y B and Kim T H 2013 Effects of mechanical preload and bearing clearance on rotordynamic performance of lobed gas foil bearings for oil-free turbochargers Tribol. Trans. 56224-35

Kim T H and Andrés L S 2009 Effects of a mechanical preload on the dynamic force response of gas foil bearings: measurements and model predictions Tribol. Trans. 52569-80

Hoffmann R and Liebich R 2017 Experimental and numerical analysis of the dynamic behaviour of a foil bearing structure affected by metal shims Tribol. Int. 115378-88

Zhou Q, Hou Y and Chen C Z 2009 Dynamic stability experiments of compliant foil thrust bearing with viscoelastic support Tribol. Int. 42662-5

Feng K, Liu Y M, Zhao X Y and Liu W H 2016 Experimental evaluation of the structure characterization of a novel hybrid bump-metal mesh foil bearing J. Tribol. 138021702

Lee Y B, Kim T H, Kim C H, Lee N S and Choi D H 2004 Dynamic characteristics of a flexible rotor system supported by a viscoelastic foil bearing (VEFB) Tribol. Int. 37679-87

Andrés L S and Chirathadam T A 2013 Performance characteristics of metal mesh foil bearings: predictions versus measurements J. Eng. Gas Turbines Power 135122503

Silva H A P and Nicoletti R 2023 Rotor vibration control using tilting-pad journal bearing with active pads-numerical and experimental results J. Sound Vib. 546117441

Shrestha S K, Kim D and Kim Y C 2013 Experimental feasibility study of radial injection cooling of three-pad air foil bearings J. Tribol. 135041703

Yazdi B Z and Kim D 2018 Rotordynamic performance of hybrid air foil bearings with regulated hydrostatic injection J. Eng. Gas Turbines Power 140012506

Park J and Sim K 2019 A feasibility study of controllable gas foil bearings with piezoelectric materials via rotordynamic model predictions J. Eng. Gas Turbines Power 141021027

Kumar V and Sharma S C 2017 Combined influence of couple stress lubricant, recess geometry and method of compensation on the performance of hydrostatic circular thrust pad bearing Proc. Inst. Mech. Eng. J 231716-33

Xiong W L, Hu C, Lü L and Zheng L G 2018 Research on the influence of controllable restrictor parameters on the characteristics of hydrostatic journal bearings J. Mech. Eng. 5463-71

Gao S, Chatterton S, Naldi L and Pennacchi P 2021 Ball bearing skidding and over-skidding in large-scale angular contact ball bearings: nonlinear dynamic model with thermal effects and experimental results Mech. Syst. Signal Process. 147107120

Michalec M, Svoboda P, Kˇrupka I and Hartl M 2021 A review of the design and optimization of large-scale hydrostatic bearing systems Int. J. Eng. Sci. Technol. 24936-58

Yuan J L, Zhang F H, Dai Y F, Kang R K, Yang H and Lü B H 2010 Development research of science and technologies in ultra-precision machining field J. Mech. Eng. 46161-77

Sharma S C, Jain S C and Bharuka D K 2002 Influence of recess shape on the performance of a capillary compensated circular thrust pad hydrostatic bearing Tribol. Int. 35347-56

Singh N, Sharma S C, Jain S C and Reddy S S 2004 Performance of membrane compensated multirecess hydrostatic/hybrid flexible journal bearing system considering various recess shapes Tribol. Int. 3711-24

Gao S Y, Cheng K, Chen S J, Ding H and Fu H Y 2015 CFD based investigation on influence of orifice chamber shapes for the design of aerostatic thrust bearings at ultra-high speed spindles Tribol. Int. 92211-21

Bassani R and Piccigallo B 1992 Hydrostatic Lubrication (Elsevier)

Bakker O J and van Ostayen R A J 2010 Recess depth optimization for rotating, annular, and circular recess hydrostatic thrust bearings J. Tribol. 132011103

Shao J P, Liu G D, Yu X D, Zhang Y Q, Meng X L and Jiang H 2018 Effect of recess depth on lubrication performance of annular recess hydrostatic thrust bearing by constant rate flow Ind. Lubr. Tribol. 7068-75

Kang Y, Chen C H, Lee H H, Hung Y H and Hsiao S T 2011 Design for static stiffness of hydrostatic bearings: single-action variable compensations Ind. Lubr. Tribol. 63103-18

Lai T H, Chang T Y, Yang Y L and Lin S C 2017 Parameters design of a membrane-type restrictor with single-pad hydrostatic bearing to achieve high static stiffness Tribol. Int. 107206-12

Hanawa N, Kuniyoshi M, Miyatake M and Yoshimoto S 2017 Static characteristics of a water-lubricated hydrostatic thrust bearing with a porous land region and a capillary restrictor Precis. Eng. 50293-307

Santos I F and Watanabe F Y 2006 Lateral dynamics and stability analysis of a gas compressor supported by hybrid and active lubricated multirecess journal bearing J. Braz. Soc. Mech. Sci. Eng. 28485-95

Nicoletti R and Santos I F 2008 Control system design for flexible rotors supported by actively lubricated bearings J. Vib. Control 14347-74

Estupiñan E A and Santos I F 2009 Linking rigid multibody systems via controllable thin fluid films Tribol. Int. 421478-86

Rehman W U R, Luo Y X, Wang Y Q, Jiang G Y, Iqbal N, Rehman S U R and Bibi S 2019 Fuzzy logic-based intelligent control for hydrostatic journal bearing Meas. Control 52229-43

Rehman W U, Wang X H, Cheng Y Q, Chen Y C, Shahzad H, Chai H, Abbas K, Ullah Z and Kanwal M 2021 Model-based design approach to improve performance characteristics of hydrostatic bearing using multivariable optimization Mathematics 9388

Kumar M, Kumar A, Bharti R K, Yadav H N S and Das M 2022 A review on rheological properties of magnetorheological fluid for engineering components polishing Mater. Today Proc. 56 A6-A12

Lampaert S G E, Quinci F and van Ostayen R A J 2020 Rheological texture in a journal bearing with magnetorheological fluids J. Magn. Magn. Mater. 499166218

Peng J and Zhu K Q 2005 Hydrodynamic characteristics of ER journal bearings with external electric field imposed on the contractive part J. Intell. Mater. Syst. Struct. 16493-9

Sharma S C and Khatri C B 2018 Electro-rheological fluid lubricated textured multi-lobe hole-entry hybrid journal bearing system J. Intell. Mater. Syst. Struct. 291600-19

Uhlmann E, Spur G, Bayat N and Patzwald R 2002 Application of magnetic fluids in tribotechnical systems J. Magn. Magn. Mater. 252336-40

Eshgarf H, Nadooshan A A and Raisi A 2022 An overview on properties and applications of magnetorheological fluids: dampers, batteries, valves and brakes J. Energy Storage 50104648

Sahu K, Sharma S C and Ram N 2022 Misalignment and surface irregularities effect in MR fluid journal bearing Int. J. Mech. Sci. 221107196

Zapome ˇl J and Ferfecki P 2022 A new concept of a hydrodynamic bearing lubricated by composite magnetic fluid for controlling the bearing load capacity Mech. Syst. Signal Process. 168108678

Varnusfaderani M A, Parizi M I, Hemmatian M and Ohadi A 2022 Experimental parameters identification of a flexible rotor system equipped with smart magneto-rheological bearing Mechatronics 87102880

Kuzhir P P, Kuzhir P G, Gul’kov G I and Rudenya A L 2011 Determination of the free boundary of the lubricant layer of a ferrofluid bearing J. Eng. Phys. Thermophys. 84422-9

Hsu T C, Chen J H, Chiang H L and Chou T L 2013 Lubrication performance of short journal bearings considering the effects of surface roughness and magnetic field Tribol. Int. 61169-75

Bin Mazlan S A 2008 The Behaviour of Magnetorheological Fluids in Squeeze Mode (Dublin City University) (https:// doi.org/doras.dcu.ie/547/)

Wang X H, Li H G and Meng G 2017 Rotordynamic coefficients of a controllable magnetorheological fluid lubricated floating ring bearing Tribol. Int. 1141-14

Urreta H, Aguirre G, Kuzhir P and de Lacalle L N L 2019 Actively lubricated hybrid journal bearings based on magnetic fluids for high-precision spindles of machine tools J. Intell. Mater. Syst. Struct. 302257-71

Pan J S, Wu Y S, Zhuo Z J, Wang H, Zheng Q B and Yan Q S 2023 Experimental study of single-crystal GaN wafer electro-Fenton magnetorheological complex friction wear Tribol. Int. 180108260

Zha J, Chen Y L, Zhang P H and Chen R L 2020 Effect of design parameters and operational conditions on the motion accuracy of hydrostatic thrust bearing Proc. Inst. Mech. Eng. C 2341481-91

Kane N R, Sihler J and Slocum A H 2003 A hydrostatic rotary bearing with angled surface self-compensation Precis. Eng. 27125-39

Zhang Y T, Lu C H, Zhao H X, Shi W J and Liang P 2019 Error averaging effect of hydrostatic journal bearings considering the influences of shaft rotating speed and external load IEEE Access 7106346-58

Qi E B, Fang Z Y, Sun T, Chen J C, Liu C Z and Wang J 2016 A method for predicting hydrostatic guide error averaging effects based on three-dimensional profile error Tribol. Int. 95279-89

Muzakkir S M, Lijesh K P and Hirani H 2014 Tribological failure analysis of a heavily-loaded slow speed hybrid journal bearing Eng. Fail. Anal. 4097-113

Zha J, Chen Y L and Zhang P H 2018 Precision design of hydrostatic thrust bearing in rotary table and spindle Proc. Inst. Mech. Eng. B 2322044-53

Huang W H and Yan J W 2023 Effect of tool geometry on ultraprecision machining of soft-brittle materials: a comprehensive review Int. J. Extrem. Manuf. 5012003

Zhang Y Q, Xu X D, Yang X D, Li H M, Jiang H, Yu X Y and Shi Z M 2011 Analysis on influence of oil film thickness on temperature field of heavy hydrostatic bearing in variable viscosity condition Adv. Mater. Res. 239-421418-21

Liu T, Gao W G, Tian Y L, Mao K, Pan G X and Zhang D W 2015 Thermal simulation modeling of a hydrostatic machine feed platform Int. J. Adv. Manuf. Technol. 791581-95

Yang S F, Li C, Jiang M L and Pei S Y 2019 A study of inlet temperature models of a large size tilting thrust bearing comparison between theory and experiment Tribol. Int. 140105881

Liu Z F, Zhan C P, Cheng Q, Zhao Y S, Li X Y and Wang Y D 2016 Thermal and tilt effects on bearing characteristics of hydrostatic oil pad in rotary table J. Hydrodyn. 28585-95

Rowe W B 2021 Conical hydrostatic journal bearings for high speeds Proc. Inst. Mech. Eng. J 235808-19

Li M Y, Chen J M and Hu Q 2014 Thermal performance analysis of conical hydrostatic bearing based on conjugate heat transfer method Mech. Res. Appl. 2736-38, 49

Zhang Y Q, Sun J C, Kong P R, Kong X B and Yu X D 2019 Research on the oil film temperature field of hydrostatic bearing with variable viscosity dynamic simulation and experiment Proc. Inst. Mech. Eng. J 2331763-72

Zhang Y Q, Fan L G, Li R, Dai C X and Yu X D 2013 Simulation and experimental analysis of supporting characteristics of multiple oil pad hydrostatic bearing disk J. Hydrodyn. 25236-41

Shao J P, Dai C X, Zhang Y Q, Yu X D, Xu X Q and Wang Y F 2011 The effect of oil cavity depth on temperature field in heavy hydrostatic thrust bearing J. Hydrodyn. 23676-80

Yu X D, Wang Y, Zhou D F, Wu G P, Zhou W K and Bi H W 2019 Heat transfer characteristics of high speed and heavy load hydrostatic bearing IEEE Access 7110770-80

Yu M B, Yu X D, Zheng X H and Jiang H 2019 Thermal-fluid-solid coupling deformation of hydrostatic thrust bearing friction pairs Ind. Lubr. Tribol. 71467-73

Zhang Y Q, Quan Z, Shi M, Feng H D and Liu Y L 2015 Improvement of hydrostatic bearing workbench structure based on the thermal deformation Proc. 201510th Int. Conf. on Computer Science & Education (IEEE) pp 528-31

Liang X L, Liu Z Q, Wang B, Wang C J and Cheung C F 2023 Friction behaviors in the metal cutting process: state of the art and future perspectives Int. J. Extrem. Manuf. 5012002

Zhang P H, Chen Y L, Zhang C Y, Zha J and Wang T 2018 Influence of geometric errors of guide rails and table on motion errors of hydrostatic guideways under quasi-static condition Int. J. Mach. Tools Manuf. 12555-67

Schwenke H, Knapp W, Haitjema H, Weckenmann A, Schmitt R and Delbressine F 2008 Geometric error measurement and compensation of machines-an update CIRP Ann. 57660-75

Huang W Z and Kong Z Y 2008 Simulation and integration of geometric and rigid body kinematics errors for assembly variation analysis J. Manuf. Syst. 2736-44

Wang Z W, Zhao W H, Chen Y L and Lu B H 2013 Prediction of the effect of speed on motion errors in hydrostatic guideways Int. J. Mach. Tools Manuf. 6478-84

Zhu S Y, Sun J, Li B and Zhu G X 2020 Thermal turbulent lubrication analysis of rough surface journal bearing with journal misalignment Tribol. Int. 144106109

Wang Y D, Zhao Y S, Cai L G, Liu Z F and Cheng Q 2016 Effects of thermal and hydrodynamic characteristics of heavy-duty rotary table on the hydrostatic circular pads J. Vibroeng. 184193-206

Rajput A K and Sharma S C 2016 Combined influence of geometric imperfections and misalignment of journal on the performance of four pocket hybrid journal bearing Tribol. Int. 9759-70

Lv F R, Ta N and Rao Z S 2017 Analysis of equivalent supporting point location and carrying capacity of misaligned journal bearing Tribol. Int. 11626-38

Jang J Y and Khonsari M M 2015 On the characteristics of misaligned journal bearings Lubricants 327-53

Wang L L, Zeng Q L, Lu C H and Liang P 2019 A numerical analysis and experimental investigation of three oil grooves sleeve bearing performance Ind. Lubr. Tribol. 71181-7

van Beek A and Segal A 1997 Rubber supported hydrostatic thrust bearings with rigid bearing surfaces Tribol. Int. 3047-52

van Beek A and Lepic L 1996 Rubber supported hydrostatic thrust bearings with elastic bearing surfaces of infinite length Wear 20145-50

Michalec M, Polnick´y V, Folt´yn J, Svoboda P, Sperka P and ˇ Hurník J 2022 The prediction of large-scale hydrostatic bearing pad misalignment error and its compensation using compliant support Precis. Eng. 7567-79

Sapirstein P 2016 Accurate measurement with photogrammetry at large sites J. Archaeol. Sci. 66137-45

Johns M et al 2014 Design of the giant Magellan telescope Proc. SPIE 91459145F

van Ostayen R A J, van Beek A and Ros M 2004 A mathematical model of the hydro-support: an elasto-hydrostatic thrust bearing with mixed lubrication Tribol. Int. 37607-16

Niemierko A 2016 Modern bridge bearings and expansion joints for road bridges Transp. Res. Proc. 144040-9

Ahmed K, Nizami S S, Raza N Z and Mahmood K 2012 Mechanical, swelling, and thermal aging properties of marble sludge-natural rubber composites Int. J. Ind. Chem. 321

Moon B, Lee J, Park S and Seok C S 2018 Study on the aging behavior of natural rubber/butadiene rubber (NR/BR) blends using a parallel spring model Polymers 10658

Ben Hassine M, Naït-Abdelaziz M, Zaïri F, Colin X, Tourcher C and Marque G 2014 Time to failure prediction in rubber components subjected to thermal ageing: a combined approach based upon the intrinsic defect concept and the fracture mechanics Mech. Mater. 7915-24

Xie Z L, Ta N and Rao Z S 2017 The lubrication performance of water lubricated bearing with consideration of wall slip and inertial force J. Hydrodyn. 2952-60

Wu Y Z, Zhu D, Tao R, Xiao R F and Liu W C 2022 Analysis of two-phase flow in cavitation condition of pump-turbine based on dynamic mode decomposition method in turbine mode J. Energy Storage 56106107

Liang P, Lu C H, Ding J and Chen S J 2013 A method for measuring the hydrodynamic effect on the bearing land Tribol. Int. 67146-53

Kim D 2016 Design space of foil bearings for closed-loop supercritical CO2 power cycles based on three-dimensional thermohydrodynamic analyses J. Eng. Gas Turbines Power 138032504

Cong T L, Wang B C and Gu H Y 2022 Numerical analysis on heat transfer enhancement of sCO2 in the tube with twisted tape Nucl. Eng. Des. 397111940

Bruckner R J 2009 Windage Power Loss in Gas Foil Bearings and the Rotor-Stator Clearance of High Speed Generators Operating in High Pressure Environments (NASA Glenn Research Center)

Preuss J L 2016 Application of hydrostatic bearings in supercritical CO2 Proc. 5th Int. Supercritical CO2 Power Cycles Symp. (San Antonio) pp 1-10

Palazzolo A and Shin D SCO2 bearing stiffness and damping test (available at: https://turbolab.tamu.edu/wp-content/ uploads/2020/08/13-SCO2-Bearing-Stiffness-andDamping-Test-New-Proposal.pdf)

Qin K, Jahn I, Gollan R and Jacobs P 2016 Development of a computational tool to simulate foil bearings for supercritical CO2 cycles J. Eng. Gas Turbines Power 138092503

Bi C X, Han D J, Wu Y, Li Y M and Yang J F 2021 Thermohydrodynamic investigation for supercritical carbon dioxide high speed tilting pad bearings considering turbulence and real gas effect Phys. Fluids 33125114

Conboy T M 2013 Real-gas effects in foil thrust bearings operating in the turbulent regime J. Tribol. 135031703

Wu Y, Yang L H, Xu T F and Wu W 2020 Thermo-elasto-hydrodynamic characteristics analysis of journal microbearing lubricated with rarefied gas Micromachines 11955

Chapman P A 2018 Advanced gas foil bearing design for supercritical CO2 power cycles Proc. 6th Int. Supercritical CO2 Power Cycles Symp. (Pittsburgh, PA, USA) pp 27-29(available at: https://netl.doe.gov/sites/default/files/netlfile/Chapman-Track-B.pdf)

Han D J and Bi C X 2022 The partial derivative method for dynamic stiffness and damping coefficients of supercritical CO2 foil bearings Lubricants 10307

Han D J, Bi C X, Chen C and Yang J F 2022 Dynamic coefficients of tilting pad bearing by perturbing the turbulence model Appl. Sci. 126348

Kim D, Ki J, Kim Y and Ahn K 2012 Extended three-dimensional thermo-hydrodynamic model of radial foil bearing: case studies on thermal behaviors and dynamic characteristics in gas turbine simulator J. Eng. Gas Turbines Power 134052501

Qin K, Jacobs P A, Keep J A, Li D J and Jahn I H 2018 A fluid-structure-thermal model for bump-type foil thrust bearings Tribol. Int. 121481-91

Deng Y G, Jiang Y and Liu J 2021 Low-melting-point liquid metal convective heat transfer: a review Appl. Therm. Eng. 193117021

Zheng A, Jia Q, Wang X and Yuan X 2010 Frequency-dependent dynamic performance of water-lubricated tilting-pad bearing based on fluid-solid-heat coupling model J. Vib. Shock 29153-7

Sarafraz M M and Arjomandi M 2019 Contact angle and heat transfer characteristics of a gravity-driven film flow of a particulate liquid metal on smooth and rough surfaces Appl. Therm. Eng. 149602-12

Cheng J, Yu Y, Guo J, Wang S, Zhu S Y, Ye Q, Yang J and Liu W M 2019 Ga-based liquid metal with good self-lubricity and high load-carrying capacity Tribol. Int. 1291-4

Ji Y L, Wu M K, Feng Y M, Liu H Q, Yang X, Li Y D and Chang C 2022 Experimental study on the effects of sodium and potassium proportions on the heat transfer performance of liquid metal high-temperature oscillating heat pipes Int. J. Heat Mass Transfer 194123116

Guo J, Cheng J, Tan H, Zhu S Y, Qiao Z H, Yang J and Liu W M 2018 Ga-based liquid metal: lubrication and corrosion behaviors at a wide temperature range Materialia 410-19

Guo J, Cheng J, Tan H, Zhu S Y, Qiao Z H, Yang J and Liu W M 2019 Ga-based liquid metal: a novel current-carrying lubricant Tribol. Int. 135457-62

Dobosz A, Plevachuk Y, Sklyarchuk V, Sokoliuk B, Tkach O and Gancarz T 2019 Liquid metals in cooling systems: experimental design of thermophysical properties of eutectic Ga-Sn-Zn alloy with Pb additions J. Mol. Liq. 281542-8

Ruan J H, Chen L X, Wang Z J, Li C X, Wu P F and Xia S G 2020 Transition mechanism based on load imbalance of liquid metal film IEEE Trans. Plasma Sci. 483720-6

Beijing Smart Beam Ltd 2021 X-ray tubes and liquid metal sliding bearings CN Patent No. 202011097286.1

General Electric Ltd 2012 Reinforced barrier for liquid metal bearings CN Patent No. 201110042724.9

General Electric Ltd 2022 Liquid metal bearing construction with reinforced seal structure CN Patent No. 202210340100.3

Simens Ltd 2015 Liquid metal sliding bearings CN Patent No. 201410398777.8

Beijing Smart Beam Ltd 2019 Liquid metal bearings, x-ray tubes and anode assemblies, stators and rotors CN Patent No. 201920863087.3

Xie Z L and Zhu W D 2021 Rotor dynamic analysis of the vertical hydro-hybrid bearing rotor coupled system of a two-circuit main loop liquid sodium pump system Ann. Nucl. Energy 155108139

Xie Z L, Shen N W, Zhu W D, Liu H L, Shi J, Wang Y K and Tian W C 2020 Dynamic characteristics analysis of the hydro-hybrid liquid sodium lubricated bearing-rotor coupled system in the two-circuit main loop liquid sodium pump system Ann. Nucl. Energy 136107059

Goraj R 2018 Theoretical study on a novel electromagnetically supported hydrodynamic bearing under static loads Tribol. Int. 119775-85

Olieslagers R, de Wild M, van Melick S and Knaapen R 2014 Simulation of the fluid structure interaction for an aerostatic bearing and a flexible substrate WIT Trans. Eng. Sci. 8295-106

Li Y Q, Yang P and Chen W 2019 Design of liquid metal lubricated spiral groove bearing considering influences of turbulence and slip J. Xi’an Jiaotong Univ. 5315-23

Xu M Y, Li Y Q and Chen W 2020 Performance analysis for liquid metal lubricated spiral groove bearings under the influence of taper error of hole machining J. Xi’an Jiaotong Univ. 5485-92

Chen R G, Xie Z L, Rao Z S, Ta N, Jiao C X and Liu L 2017 Lubrication regime and dynamic characteristics of hydro-hybrid bearing of two-circuit main loop Na liquid pump system Lubr. Eng. 426-13

Yang X B 2011 Research on the Characteristics of Thermohydrodynamic Lubrication of High Speed Small Diameter Liquid Suspension Spindle and the Effect of Surface Microstructures (Hunan University)

Cupillard S, Glavatskih S and Cervantes M J 2008 Computational fluid dynamics analysis of a journal bearing with surface texturing Proc. Inst. Mech. Eng. J 22297-107

Li X, Li Y H, Tong Z, Ma Q, Ni Y Q and Dong G N 2019 Enhanced lubrication effect of gallium-based liquid metal with laser textured surface Tribol. Int. 129407-15

Mao Y Z, Yang J X and Liu Y G 2018 Analysis of influence of oil film pressure distribution of textured hydrodynamic sliding bearing Lubr. Eng. 4355-60, 71

Sharma S, Jamwal G and Awasthi R K 2019 Enhancement of steady state performance of hydrodynamic journal bearing using chevron-shaped surface texture Proc. Inst. Mech. Eng. J 2331833-43

Brizmer V, Kligerman Y and Etsion I 2003 A laser surface textured parallel thrust bearing Tribol. Trans. 46397-403

Etsion I and Burstein L 1996 A model for mechanical seals with regular microsurface structure Tribol. Trans. 39677-83

Etsion I, Halperin G, Brizmer V and Kligerman Y 2004 Experimental investigation of laser surface textured parallel thrust bearings Tribol. Lett. 17295-300

Yan J J 2018 Rotor Dynamic Characteristics of Foil Bearing System with Surface Micro Structure (Harbin Institute of Technology)

Li L L, Li Y Z, Du Q W, Liu T Y and Xie Y H 2022 ReF-nets: physics-informed neural network for Reynolds equation of gas bearing Comput. Methods Appl. Mech. Eng. 391114524

Chorin A J 1968 Numerical solution of the Navier-Stokes equations Math. Comput. 22745-62

Wang X K, Xu Q, Wang B R, Zhang L X, Yang H and Peng Z K 2016 Effect of surface waviness on the static performance of aerostatic journal bearings Tribol. Int. 103394-405

Li Y T and Ding H 2012 A simplified calculation method on the performance analysis of aerostatic thrust bearing with multiple pocketed orifice-type restrictors Tribol. Int. 5666-71

Skaltsas D, Rossopoulos G N and Papadopoulos C I 2022 A comparative study of the Reynolds equation solution for slider and journal bearings with stochastic roughness on the stator and the rotor Tribol. Int. 167107410

Mamori H, Fukudome K, Tanaka K and Miyazaki T 2023 Direct numerical simulation of turbulent pipe flow by large-scale control using buoyancy force Int. J. Heat Fluid Flow 99109075

Lee M and Moser R D 2015 Direct numerical simulation of turbulent channel flow up to ReT ≈ 5200 J. Fluids Mech. 774395-415

Roshny S and Subrahamanyam D B 2022 Do the large-eddy simulations yield deeper atmospheric boundary layers in comparison to the RANs model simulations? J. Atmos. Sol.-Terr. Phys. 240105954

Amani E, Ahmadpour A and Aghajari M J 2023 Large-eddy simulation of turbulent non-Newtonian flows: a comparison with state-of-the-art RANS closures Int. J. Heat Fluid Flow 99109076

Xiao H, Wu J L, Wang J X, Sun R and Roy C J 2016 Quantifying and reducing model-form uncertainties in Reynolds-averaged Navier-Stokes simulations: a data-driven, physics-informed Bayesian approach J. Comput. Phys. 324115-36

Sun A, Ma W Q and Wang Z W 2007 Numerical simulation of externally pressure circular thrust gas lubrication bearing under height bearing clearance Lubr. Eng. 3216-19

Yoshimoto S, Yamamoto M and Toda K 2007 Numerical calculations of pressure distribution in the bearing clearance of circular aerostatic thrust bearings with a single air supply inlet J. Tribol. 129384-90

Li Y T and Ding H 2007 Influences of the geometrical parameters of aerostatic thrust bearing with pocketed orifice-type restrictor on its performance Tribol. Int. 401120-6

Moríñigo J A, Anaya-Ruíz P P, Bustos A and Mayo-García R 2023 Unsteady RANs-based DMD analysis of airfoil NACA0015 with Gurney flap Int. J. Heat Fluid Flow 99109099

Ji B, Luo X W, Arndt R E A, Peng X X and Wu Y L 2015 Large eddy simulation and theoretical investigations of the transient cavitating vortical flow structure around a NACA66 hydrofoil Int. J. Multiph. Flow 68121-34

Zhu J C, Chen H and Chen X D 2013 Large eddy simulation of vortex shedding and pressure fluctuation in aerostatic bearings J. Fluids Struct. 4042-51

Liu R, Wang W M, Qi P Y and Liu B W 2013 Performance simulation and experimental study of tilting pad thrust bearing based on TEHD Chin. J. Turbomach. 722-27

Cui H L, Zhao W Y, Xia H, Yang H and Zhang L X 2015 Study on static characteristics of ultra-precision hydrostatic guideway based on numerical simulation Mod. Mach. Tool Autom. Manuf. Tech. 24-2630

Ma S J, Yin Y J, Chao B, Yan K, Fang B and Hong J 2023 A real-time coupling model of bearing-rotor system based on semi-flexible body element Int. J. Mech. Sci. 245108098

Lu L H, Gao Q, Chen W Q, Liu L and Wang G L 2017 Investigation on the fluid-structure interaction effect of an aerostatic spindle and the influence of structural dimensions on its performance Proc. Inst. Mech. Eng. J 2311434-40

Gao Q, Lu L H, Chen W Q, Chen G D and Wang G L 2017 A novel modeling method to investigate the performance of aerostatic spindle considering the fluid-structure interaction Tribol. Int. 115461-9

Wang N, Wei Z Y, Lin Q Y and Chen W 2014 Multi-physical field coupling analysis of journal bearing system under time-varying condition J. Shanghai JiaoTong Univ. 466-11

Hu Y and Meng Y G 2022 Performance optimization analysis of tilting pad journal bearing based on multi-physics coupling Lubr. Eng. 471-10

Gao Q, Lu L H, Zhang R, Song L Y, Huo D H and Wang G L 2019 Investigation on the thermal behavior of an aerostatic spindle system considering multi-physics coupling effect Int. J. Adv. Manuf. Technol. 1023813-23

Gao S Y, Cheng K and Ding H 2014 Multi-physics simulation based design and analysis of a high speed aerostatic spindle and its performance assessment Proc. ASME 2014 Int. Design Engineering Technical Conf. and Computers and Information in Engineering Conf. (ASME) (https://doi.org/10.1115/DETC2014-34086)

Gao S Y, Cheng K, Ding H and Fu H Y 2016 Multiphysics-based design and analysis of the high-speed aerostatic spindle with application to micro-milling Proc. Inst. Mech. Eng. J 230852-71

Chen G D, Chen Y J, Lu Q, Wu Q H and Wang M H 2020 Multi-physics fields based nonlinear dynamic behavior analysis of air bearing motorized spindle Micromachines 11723

Kim M S, Shim J, Kim J, Jang D G and Park S S 2020 Multiphysics simulation and experiment of a thrust bearing in scroll compressors Tribol. Int. 142105969

Pierson K 2019 Multiphysics Cavitation Model with Application to the Dynamic Behavior of Journal Bearings (University of Akron)

Badawi M B, Crosby W A, El Fahham I M and Alkomy M H 2020 Performance analysis of tilting pad journal bearing using COMSOL multiphysics and neural networks Alex. Eng. J. 59865-81

Cui H L, Wang Y, Yang H, Zhou L, Li H, Wang W and Zhao C J 2018 Numerical analysis and experimental research on the angular stiffness of aerostatic bearings Tribol. Int. 120166-78

Cui H L, Yue X B, Lei D J, Xia H and Zhu J P 2014 Study on radial characteristics of aerostatic bearing based on ANSYS workbench Lubr. Eng. 39100-103

Yang M, Kong M, Li C H, Long Y Z, Zhang Y B, Sharma S, Li R Z, Gao T, Liu M Z and Cui X 2023 Temperature field model in surface grinding: a comparative assessment Int. J. Extrem. Manuf. 5042011

Ma X Z and Zhu J 2010 Transient behavior analysis of adiabatic thermal elasto-hydrodynamic lubrication of journal bearing under step load J. Aerosp. Power 25713-7

Wang S S, Guo H, Li R Z and Zhang S L 2017 Research on static characteristics of high speed hydrodynamic journal bearings affected by cavitations and thermal effect Bearing 1036-39

Zhang Y, Chen G D and Wang L 2019 Effects of thermal and elastic deformations on lubricating properties of the textured journal bearing Adv. Mech. Eng. 111-12

Kang L, Zhang X N, Lou J J and Qiang L L 2020 Conjugate heat transfer study on porous media gas lubricated bearing J. Eng. Therm. Energy Power 35158-66

Andre’s L S, Kim T H and Ryu K 2010 Thermal management and rotordynamic performance of a hot rotor-gas foil bearings system: part 2-predictions versus test data Proc. ASME Turbo Expo 2010: Power for Land, Sea, and Air (https://doi.org/10.1115/1.4001826) (ASME)

Aksoy S and Aksit M F 2015 A fully coupled 3D thermo-elastohydrodynamics model for a bump-type compliant foil journal bearing Tribol. Int. 82110-22

Radil K and Batcho Z 2011 Air injection as a thermal management technique for radial foil air bearings Tribol. Trans. 54666-73

Gao Q H, Sun W J, Zhang J Z and Zhang J Y 2022 Fluid-solid coupled simulation on thermal management of hydrodynamic gas foil bearing with an axial cooling throughflow Case Stud. Therm. Eng. 37102238

Zhang J Y, Qiao X Y, Chen W D, Chen B X, Lyu Y W and Luo X Y 2022 Numerical investigation of thermo-aerodynamic characteristics of gas foil thrust bearing Therm. Sci. Eng. Prog. 31101296

Patil T D 2013 Thermal Management Method for Foil Bearings in Turbine Hot Section (University of Texas at Arlington) (available at: https://rc.library.uta.edu/uta-ir/ bitstream/handle/10106/24099/Patil_uta_2502M_12425. pdf?isAllowed=y&sequence=1)

Feng K, Li W J, Deng Z H and Zhang M 2017 Thermohydrodynamic analysis and thermal management of spherical spiral groove gas bearings Tribol. Trans. 60629-44

Martowicz A, Roemer J, Lubieniecki M, Zywica G and · Bagi´nski P 2020 Experimental and numerical study on the thermal control strategy for a gas foil bearing enhanced with thermoelectric modules Mech. Syst. Signal Process. 138106581

Zhang G H, Liu J, Sundén B and Xie G N 2021 Combined experimental and numerical studies on flow characteristic and heat transfer in ribbed channels with vortex generators of various types and arrangements Int. J. Therm. Sci. 167107036

Wodtke M and Litwin W 2021 Water-lubricated stern tube bearing—experimental and theoretical investigations of thermal effects Tribol. Int. 153106608

Zhang G H, Zhu R, Xie G N, Li S L and Sundén B 2022 Optimization of cooling structures in gas turbines: a review Chin. J. Aeronaut. 3518-46

Zhang G H, Liu J, Sundén B and Xie G N 2020 Comparative study on the adiabatic film cooling performances with elliptical or super-elliptical holes of various length-to-width ratios Int. J. Therm. Sci. 153106360

Alfares M, Saleem O and Majeed M 2019 Analytical study of thermal variation impact on dynamics of a spindle bearing system Proc. Inst. Mech. Eng. K 233871-98

Zhang K, Zhao X Y, Feng K and Zhao Z L 2018 Thermohydrodynamic analysis and thermal management of hybrid bump-metal mesh foil bearings: experimental tests and theoretical predictions Int. J. Therm. Sci. 12791-104

Daniel G B and Cavalca K L 2013 Evaluation of the thermal effects in tilting pad bearing Int. J. Rotating Mach. 2013725268

Dong D, Liu G H, Xiong N, Kang J L and Wang Y 2019 Development of rotating anode targets for CT tubes Vac. Electron. 0137-40

Toshiba Ltd 1993 Rotating anode x-ray tube CN Patent No. 931040088.4

Shanghai Junan Ltd 2018 A novel heat dissipation structure of large capacity x-ray tube CN Patent No. 201711222102.8

Toshiba Ltd 2008 Rotating anode x-ray tube assemblies CN Patent No. 931040088.4

Zhuhai RCAN Ltd 2018 A liquid metal bearing used for medical diagnostic x-ray tubes CN Patent Surf. 201720647516.4

Wang X, Zhao P, Lyu B H and Yuan J L 2019 Research status of ultra-precision machining technologies for working surfaces of rolling bearings China Mech. Eng. 301301-9

Wang J S, Fang F Z, An H J, Wu S, Qi H M, Cai Y X and Guo G Y 2023 Laser machining fundamentals: micro, nano, atomic and close-to-atomic scales Int. J. Extrem. Manuf. 5012005

Yang P and Chen W 2020 Analysis for performance of herringbone spiral groove thrust bearing J. Xi’an Jiaotong Univ. 5417-27

Cao H R, Zhang X W and Chen X F 2017 The concept and progress of intelligent spindles: a review Int. J. Mach. Tools Manuf. 11221-52

Zhu Y S, Zhang P, Yuan Q Q, Yan K and Hong J 2019 Key technologies and development trend of smart bearing J. Vib. Meas. Diagn. 39455-62

Gao R X, Jin Y C and Warrington R O 1994 Microcomputer-based real-time bearing monitor IEEE Trans. Instrum. Meas. 43216-9

Shao Y M, Ge L and Fang J P 2008 Fault diagnosis system based on smart bearing Proc. 2018 Int. Journal on Control, Automation and Systems (IEEE) pp 1084-9

Scoot S, Kovacs A, Gupta L, Katz J, Sadeghi F and Peroulis D 2011 Wireless temperature microsensors integrated on bearings for health monitoring applications Proc. 24th Int. Conf. on Micro Electro Mechanical Systems (IEEE) pp 660-3

Kono D, Mizuno S, Muraki T and Nakaminami M 2019 A machine tool motorized spindle with hybrid structure of steel and carbon fiber composite CIRP Ann. 68389-92

Han M L, Qi Z C, Wang Z W, Zhang Q C, Sun L G and Chu B 2019 Design of intelligent temperature monitoring system for wireless bearing lubricating oil based on Arduino and NRF24l01 J. Chin. Agric. Mech. 40167-71

Wang F Z, Zhu Y S, Yan K, Liu Y W and Hong J 2018 Wireless monitoring technology of rolling bearing inner ring temperature J. Mech. Eng. 548-14

Chen J H, Zhang W Y and Wang H 2021 Intelligent bearing structure and temperature field analysis based on finite element simulation for sustainable and green manufacturing J. Intell. Manuf. 32745-56

Lv X H and Wang W 2021 Design of smart bearing with wireless monitoring system J. Phys.: Conf. Ser. 1986012059

Wang C, Cheng K, Rakowski R and Soulard J 2018 An experimental investigation on ultra-precision instrumented smart aerostatic bearing spindle applied to high speed micro-drilling J. Manuf. Process. 31324-35

Liu T, Gao W G, Tian Y L, Zhang D W, Zhang Y F and Chang W F 2017 Power matching based dissipation strategy onto spindle heat generations Appl. Therm. Eng. 113499-507

Yan R Q, Gao R X and Zhang L 2015 In-process modal parameter identification for spindle health monitoring Mechatronics 3142-49

Lee C, Zolfaghari A, Kim G H and Jeon S 2019 An optical measurement technique for dynamic stiffness and damping of precision spindle system Measurement 13161-68

Design and optimization of fluid lubricated bearings operated with extreme working performances—a comprehensive review

doi: 10.1088/2631-7990/ad1825

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通讯作者: 陈斌, bchen63@163.com

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