Uses of empirical mode decomposition and multi-entropy techniques to establish the correlations among vibrations, friction coefficients and component wear of ball-bearing-like specimens

Han, Chang Fu; Wu, Cheng-Chun; Chu, Hung‐Kuo; Tsai, Ping Hsueh; Horng, Jeng Haur; Wei, Chang-Ching; Hwang, Yih-Chyun; Lin, Jen Fin

doi:10.1016/j.measurement.2019.107021

Cited by 6 publications

(1 citation statement)

References 19 publications

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“…In such cases, engaging enormous research resources to work on reducing the frictional moment is unjustified and too costly. It is then more reasonable to select an appropriate bearing designed from existing designs, based on the measurements of the frictional torque performed on an accurate and reliable measurement rig [8,9]. The ability to precisely measure the frictional moment values occurring in rolling bearings, as well as the knowledge of the dependence of their values on the conditions in which the bearings operate, including factors such as rotational speed and load, allow the machine/device designers to select the optimal bearing for a specific structural node, and allow bearings manufacturers to assess their quality and to take the right paths for improving their designs [10].…”

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confidence: 99%

New Parameter Proposed for Industrial Acceptance Measurements of Rolling Bearings

Adamczak

Domagalski

Wrzochal

et al. 2021

Preprint

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The frictional moment, together with vibrations and durability, is one of the most important parameters determining the quality of bearings and their suitability for the intended applications. The frictional moment value allows for obtaining essential information about the bearing, both in terms of its structure, the quality of mating elements, cleanliness and the specific qualities of the lubricant used. Since bearings are commonly used in the automotive industry, machine industry and household appliances, the need to reduce friction in rolling bearings is critical to increase the bearing efficiency, reduce energy consumption and protect the environment. The article presents a new industrial device for testing the bearing frictional moment of rolling bearings at the stage of their production. The device is characterized by an innovative design that allows for testing a wide range of bearing dimensions, applying significant axial loads, additional measurement of the mounting width of the bearings, and most importantly, testing the cone bearings. This article presents the general assumptions and the mechanical design of the new device for measuring the frictional moment of rolling bearings, as well as the verification of the device indications based on a measurement procedure performed in industrial conditions.

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confidence: 99%