Jussi Sopanen scite author profile

This study proposes a dynamic model of a deep-groove ball bearing with six degrees of freedom. The model includes descriptions of non-linear Hertzian contact deformation and elastohydrodynamic (EHD) uid lm. The geometry, material properties and diametral clearance of the bearing are given as the input to the proposed model. The bearing force and torque components are calculated from the relative displacements and velocities between bearing rings. Distributed defects, such as the waviness of the inner and outer ring, and localized defects, such as inner and outer ring defects, are taken into consideration in the proposed model. The proposed ball bearing model could be used in the general multi-body or rotor dynamics computer code as an interference element between the rotor and the housing. The numerical results obtained from the model are compared with those found in the literature in Part 2 of this paper.

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Dynamic model of a deep-groove ball bearing including localized and distributed defects. Part 2: Implementation and results

Sopanen

Mikkola

2003

Proceedings of the Institution of Mechanical Engineers, Part K:

101

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The model of the ball bearing proposed in Part 1 is implemented and analysed using a commercial multi-body system software application (MSC.ADAMS). The effect of the diametral clearance of the bearing on the natural frequencies and vibration response of the rotor-bearing system is studied. The diametral clearance is found to have a signi cant effect on the level of vibration as well as on the natural frequencies. Low-order waviness, also known as out-of-roundness, is found to generate vibration at frequencies of the waviness order multiplied by the rotation speed. On the other hand, the waviness orders close to the number of balls in the bearing (z § 1 and z) are found to generate vibrations at the ball passage inner ring and ball passage outer ring frequencies. Various excitations produce sum and difference frequencies. Localized defects in the inner and outer ring are found to generate vibrations at bearing defect frequencies. The simulation results are in line with the analytical and experimental results available in the literature.

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Description of Elastic Forces in Absolute Nodal Coordinate Formulation

2003

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Multidisciplinary Design Process of a 6-Slot 2-Pole High-Speed Permanent-Magnet Synchronous Machine

Uzhegov

Kurvinen

Nerg

et al. 2016

IEEE Trans. Ind. Electron.

147

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Dynamic Torque Analysis of a Wind Turbine Drive Train Including a Direct-Driven Permanent-Magnet Generator

Sopanen¹,

Ruuskanen

Nerg

et al. 2011

IEEE Trans. Ind. Electron.

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Jussi Sopanen

Dynamic model of a deep-groove ball bearing including localized and distributed defects. Part 1: Theory

Dynamic model of a deep-groove ball bearing including localized and distributed defects. Part 2: Implementation and results

Description of Elastic Forces in Absolute Nodal Coordinate Formulation

Multidisciplinary Design Process of a 6-Slot 2-Pole High-Speed Permanent-Magnet Synchronous Machine

Dynamic Torque Analysis of a Wind Turbine Drive Train Including a Direct-Driven Permanent-Magnet Generator

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