2021
DOI: 10.3390/app11020787
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Analysis of Dynamic Response of a Two Degrees of Freedom (2-DOF) Ball Bearing Nonlinear Model

Abstract: Often the input values used in mathematical models for rolling bearings are in a wide range, i.e., very small values of deformation and damping are confronted with big values of stiffness in the governing equations, which leads to miscalculations. This paper presents a two degrees of freedom (2-DOF) dimensionless mathematical model for ball bearings describing a procedure, which helps to scale the problem and reveal the relationships between dimensionless terms and their influence on the system’s response. The… Show more

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Cited by 9 publications
(4 citation statements)
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“…Another important aspect influencing the bearing's vibrations is the shape errors [30] in form of a number of undulations over the raceway's diameter with specific amplitude. For the analysis of the influence of the damping coefficient on the dynamical response, we continue the development of the 2-DOF model discussed in the following article [31]. Applied dimensionless model provides satisfying results for study the dynamical response of rollingelement bearings and its dimensionless form introduces the understanding of applied terms in the domain of crucial parameter, in our case the radial internal clearance.…”
Section: Nonlinear Model Of Ball Bearingmentioning
confidence: 99%
See 1 more Smart Citation
“…Another important aspect influencing the bearing's vibrations is the shape errors [30] in form of a number of undulations over the raceway's diameter with specific amplitude. For the analysis of the influence of the damping coefficient on the dynamical response, we continue the development of the 2-DOF model discussed in the following article [31]. Applied dimensionless model provides satisfying results for study the dynamical response of rollingelement bearings and its dimensionless form introduces the understanding of applied terms in the domain of crucial parameter, in our case the radial internal clearance.…”
Section: Nonlinear Model Of Ball Bearingmentioning
confidence: 99%
“…The damping is changed with step 0.01 every 5 μm, the results of the dynamical response are compared by the traditional approach with constant damping factor and variable as described. The remaining model parameters taken for simulation are constant as in the work [31], blue line in Fig. 2 refers to the constant damping factor equal to 0.01 in the unit of clearance (from previous paper).…”
Section: Nonlinear Model Of Ball Bearingmentioning
confidence: 99%
“…Li et al 9 proposed a numerical integration method, which could effectively couple with finite element model and dynamic model. Ambro_ zkiewicz et al 10 built a dimensionless dynamic model of REB to analyse the relation between non-dimensional parameters and their effect on dynamic response. Considering the waviness and centrifugal force, Hou et al 11 built a 2N b + 5-DOF vibration model of REB.…”
Section: Introductionmentioning
confidence: 99%
“…Moreover, local defects are predominantly in the form of cracks, pits, and spalls on the component surface [ 22 ]. Bartłomiej et al [ 23 ] presented a two-degrees of freedom (2-DOF) dimensionless mathematical model. These studies demonstrate that bearing faults mainly result from balls or raceways.…”
Section: Introductionmentioning
confidence: 99%