Thi-Thao Ngo scite author profile

Bearings play an important role in a high-speed spindle. Its characteristics are often influenced by speed and thermal effects. This paper presents an approach that combines an inverse method with a high-speed ball bearing model to determine the characteristics of a high-speed spindle bearing under constant preload in actual working conditions. With temperature distribution in the entire spindle obtained by the experimental inverse heat transfer model from the authors’ previous results, the change in bearing parameters is then calculated and subsequently replaced in the bearing model to analyze the change in bearing characteristics. As a result, thermal effects on a bearing’s dynamic contact angles, contact forces, contact stress, stiffness, and lubricant film thickness are presented. Moreover, analysis results indicate that a bearing’s stiffness and lubricant film thickness nonlinearly vary with the increase in speed, and the thermal effect significantly affects the lubricant film thickness. The results presented herein may be applied to develop a dynamic model for a high-speed spindle using a constant preload and provide useful information to avoid failure in lubrication.

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Developing a thermoelectric cooling module for control temperature and thermal displacement of small built-in spindle

Ngo

Wang

Chen

et al. 2021

Thermal Science and Engineering Progress

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The BFGS method for estimating the interface temperature and convection coefficient in ultrasonic welding

Ngo

Huang

Wang

2015

International Communications in Heat and Mass Transfer

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Thi-Thao Ngo

An inverse method for estimating heat sources in a high speed spindle

Estimating time-varying heat sources in a high speed spindle based on two measurement temperatures

Analyzing characteristics of high-speed spindle bearing under constant preload

Developing a thermoelectric cooling module for control temperature and thermal displacement of small built-in spindle

The BFGS method for estimating the interface temperature and convection coefficient in ultrasonic welding

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