Characterization of Bond Fracture in Discrete Groove Wear of Cageless Ball Bearings

Zhao, Yanling; Yuan, Jian; Pan, Chengyi; Wu, None Chuanwang; Yuan, Xianglin; Zhou, Gang; Wang, Han

doi:10.3390/ma15196711

Cited by 2 publications

(1 citation statement)

References 24 publications

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“…Bonding between the two particles due to contact, here, can become the formation of the connection bond in the process of bearing operation. The particles are subjected to the external force generated when the rolling element squeezes the surface of the functional groove, and the particles on the surface of the functional groove transform the external force into the internal force of the internal particle contact and transfer it to each layer on the particle level [31]. The change in the amount of overlap generated between the particles leads to a change in the contact force, and the area of contact and the magnitude of the contact force directly affects the change in the interparticle bonding force.…”

Section: Fracture and Failure Prediction Of Non-spherical Particles W...mentioning

confidence: 99%

Characterization of Microscopic Damage Evolution of Functional Groove in Cageless Bearings

et al. 2023

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Bearings with partial function grooves as cageless bearings related to magnetic floating bearing protection have characteristics, such as fast offsetting of the impact force caused by rotor fall, and they gradually become important parts of ultra clean and cryogenic transportation systems. However, the functional failure mechanism of the bearing, which is caused by functional groove wear, is not clear. Therefore, this paper establishes a force–motion intrinsic model of particles inside the functional groove, which is based on the discrete element method, which it itself combined with the functional groove damage evolution trend analysis. Then, a hyper-quadratic surface model of inter-particle contact is established to simulate the time-varying friction coefficient of the functional groove by combining particles of different sizes to form particle clusters. Additionally, as the boundary condition, EDEM is used to solve the contact motion state of rolling element rolling through the functional groove for one week to obtain the overlap between particles and contact force change law. The results show that the wide side of the functional groove wears more seriously than the narrow side, and the rolling element leaves the functional groove with more impact than when it enters the functional groove, and the functional groove wears more seriously. In this paper, through the study of local functional groove wear of cageless ball bearing, we propose to characterize the damage extension of functional groove by using the number of particle fracture and motion trend in discrete element method, and this study provides theoretical guidance for the design of cageless bearings.

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Section: Fracture and Failure Prediction Of Non-spherical Particles W...mentioning

confidence: 99%

Characterization of Microscopic Damage Evolution of Functional Groove in Cageless Bearings

et al. 2023

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Design and Optimization of Rice Grain Screening System Based on DEM–CFD Coupled Rice Seed Testing Platform

et al. 2022

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Targeting the problems of low precision and heavy workload in conventional screening of filled and unfilled grain in single-plant rice testing, a screening system for filled and unfilled grain was designed based on the coupling of the wind and gravity fields. In this study, the motion state of filled and unfilled grain in the flow field and the results of screening were analyzed and combined with aerodynamics. In order to reveal the influence law of the structural and working parameters of the screening system on the screening performance and determine the optimal parameter combination, this study conducted a quadratic regression orthogonal rotating center combination test with four factors and three levels based on the DEM–CFD coupling method. The relationship between air inlet wind speed, air cross-section shape, horizontal distance, vertical distance, and removal rate was studied. The results showed that, in a certain range, the removal rate was positively correlated with the section width of the outlet, positively correlated with the wind speed, and negatively correlated with the vertical distance and horizontal distance of the seed-drop outlet. The optimization results showed that, when the section width of the outlet was 75.44 mm, the wind speed was 8.90 m·s−1, the transverse distance was 198.78 mm, and, when the vertical distance was 34.87 mm, the screening rate of the screening system could reach 99.6%.

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Characterization of Bond Fracture in Discrete Groove Wear of Cageless Ball Bearings

Cited by 2 publications

References 24 publications

Characterization of Microscopic Damage Evolution of Functional Groove in Cageless Bearings

Characterization of Microscopic Damage Evolution of Functional Groove in Cageless Bearings

Design and Optimization of Rice Grain Screening System Based on DEM–CFD Coupled Rice Seed Testing Platform

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