A Comparative Experimental Investigation on Defects in Rolling Contact Bearing by Vibration Analysis Technique Using FTT

Materials Processing & Manufacturing eJournal Pub Date : 2018-12-13 DOI:10.2139/ssrn.3355554

Sagar Bhingare, Vinay Y. Jadhav, Tejas Jadhav, Pratik Shendge, Shubham Lidhade, V. Phalle

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Abstract

Rolling contact bearing defects are analyzed in this paper experimentally. RCB plays a major role in rotating parts under high speeds and loads and are widely used in many machinery components. The defect or malfunctioning in this rolling elements leads to severe consequences in productivity and also costly downtime. So if we could monitor these rolling elements and could predict the severity of defect prior to they actually happen much advantage could be gain than after failure of rolling elements. Therefore vibration monitoring was used to detect various defects. This paper also shows compatibility of Vibration analysis technique for detecting the distributed defects in rolling elements. Experimental analysis is done on roller bearing with different load condition (1kg ,2kg,3kg) and without load condition with respective to speed of shaft in rpm (1000,2000,3000) . Then the comparison is carried out between healthy and defective bearings on the basis of results obtained from FFT analysis. The results extracted from experiments are presented and explained in detail.

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基于FTT振动分析技术的滚动接触轴承缺陷对比试验研究

本文对滚动接触轴承缺陷进行了实验分析。RCB在高速和高负荷下的旋转部件中起着重要作用，广泛应用于许多机械部件中。这种滚动元件的缺陷或故障会导致生产力的严重后果，也会导致昂贵的停机时间。因此，如果我们能够监测这些滚动元件，并在它们实际发生之前预测缺陷的严重程度，将比滚动元件失效后获得更多的优势。因此，振动监测用于检测各种缺陷。本文还说明了振动分析技术在检测滚动构件分布缺陷中的适用性。分别对滚子轴承在不同载荷条件下(1kg、2kg、3kg)和无载荷条件下的轴转速(1000、2000、3000)进行了实验分析。然后在FFT分析结果的基础上对健康轴承和缺陷轴承进行了比较。并对实验结果进行了详细说明。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Materials Processing & Manufacturing eJournal

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