Static characteristics analysis of spherical hybrid sliding bearings

Wang, Jian; Shen, Jing; Fan, Ya Wen

doi:10.1108/ilt-06-2019-0213

Cited by 5 publications

(4 citation statements)

References 12 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…On the basis of equation (4) of continuity, combining with Newton’s law of viscosity and hypothesis of Reynolds equation (Wang et al , 2019), the nonlinear dimensionless Reynolds equation (6) of SHSBs was derived in the spherical coordinate system: …”

Section: Spherical Hybrid Sliding Bearings Mathematical Models and Eq...mentioning

confidence: 99%

“…The spherical hybrid sliding bearings (SHSBs) provide high rotating accuracy, high dynamic stiffness, high vibration damping and long life cycle (Wang et al , 2019), which are suitable for use in high-precision lathes and grinders. The 3D model of SHSBs is shown in Figure 1.…”

Section: Introductionmentioning

confidence: 99%

“…Li et al (2019) investigated the dynamic performance of the aerodynamic journal bearings–supported rotor under constant speed operating conditions. Wang et al (2019) investigated the nonlinear dynamics of a spherical gas-lubricated bearing rotor by using the hybrid numerical method, which combines the differential transform method with the finite difference method. Meruane and Pascual (2008) established the mathematical model of the plain bearing to study the variation of axial trajectory and identified the nonlinear coefficients of the bearing.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Study on dynamic characteristics of acceleration process of spherical hybrid sliding bearings rotor system

Xue,

Shen,

Fan

2024

ILT

View full text Add to dashboard Cite

Purpose The transient loads on the spherical hybrid sliding bearings (SHSBs) rotor system during the process of accelerating to stable speed are related to time, which exhibits a complex transient response of the rotor dynamics. The current study of the shaft center trajectory of the SHSBs rotor system is based on the assumption that the rotational speed is constant, which cannot truly reflect the trajectory of the rotor during operation. The purpose of this paper truly reflects the trajectory of the rotor and further investigates the stability of the rotor system during acceleration of SHSBs. Design/methodology/approach The model for accelerated rotor dynamics of SHSBs is established. The model is efficiently solved based on the fourth-order Runge–Kutta method and then to obtain the shaft center trajectory of the rotor during acceleration. Findings Results show that the bearing should choose larger angular acceleration in the acceleration process from startup to the working speed; rotor system is more stable. With the target rotational speed increasing, the changes in the shaft trajectory of the acceleration process are becoming more complex, resulting in more time required for the bearing stability. When considering the stability of the rotor system during acceleration, the rotor equations of motion provide a feasible solution for the simulation of bearing rotor system. Originality/value The study can simulate the running stability of the shaft system from startup to the working speed in this process, which provides theoretical guidance for the stability of the rotor system of the SHSBs in the acceleration process.

show abstract

Section: Spherical Hybrid Sliding Bearings Mathematical Models and Eq...mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Study on dynamic characteristics of acceleration process of spherical hybrid sliding bearings rotor system

Xue,

Shen,

Fan

2024

ILT

View full text Add to dashboard Cite

show abstract

“…1,2 It is an important supporting component in rotating machinery. A relatively welldeveloped theoretical system has been established for hundreds of years, [3][4][5] but in practical applications, the service performances of the bearing are usually greatly different from the theoretical analysis results, especially the dynamic characteristics. 6,7 In linear theory, the dynamic characteristics of bearings are characterized by stiffness and damping coefficients, mainly using conventional 8-coefficient model, 8,9 frequency-varying 8-coefficient model, 10,11 complete dynamics model, 12,13 etc.…”

Section: Introductionmentioning

confidence: 99%

Simulation evaluation of dynamic characteristic identification accuracy of sliding bearing considering test error

Chen

Wang

et al. 2021

Advances in Mechanical Engineering

View full text Add to dashboard Cite

Aiming at the dynamic characteristics test bench of sliding bearings, the dynamic model is established. Based on the forward and inverse dynamic problems of the bearing, a simulation evaluation method for the identification accuracy of the sliding bearing dynamic characteristics is proposed and the algorithm is verified. The identification errors of dynamic characteristic coefficients under different excitation frequencies are analyzed, the sensitivities of single frequency excitation method and dual-frequency excitation method to test error are contrastively analyzed, and the influence laws of dynamic characteristic identification accuracy of sliding bearing are evaluated. Based on which the traditional single frequency excitation method has been improved. The dynamic characteristic test should be carried out respectively in the low frequency range and the high frequency range. The main stiffness and cross damping are the average of two tests, the main damping is the identification value in the high frequency, and the cross stiffness is the identification value in the low frequency. That will effectively reduce the impact of test error. The obtained data and laws could support the improvement of the dynamic characteristics test method of sliding bearings and the confirmation of test parameters, thereby the accuracy of dynamic characteristics identification is improved.

show abstract

Machine learning calculation model for hydrodynamic lubrication characteristics of a miter gate bottom pivot

Guan

et al. 2022

Engineering Analysis with Boundary Elements

View full text Add to dashboard Cite

Static characteristics analysis of spherical hybrid sliding bearings

Cited by 5 publications

References 12 publications

Study on dynamic characteristics of acceleration process of spherical hybrid sliding bearings rotor system

Study on dynamic characteristics of acceleration process of spherical hybrid sliding bearings rotor system

Simulation evaluation of dynamic characteristic identification accuracy of sliding bearing considering test error

Machine learning calculation model for hydrodynamic lubrication characteristics of a miter gate bottom pivot

Contact Info

Product

Resources

About