Parametric vibration Analysis of Rotating Machinery

Publication date: 2018Source: Materials Today: Proceedings, Volume 5, Issue 11, Part 3Author(s): A. Khadersab, S. ShivakumarAbstractIn rotating machinery, the most extensively used element is the rolling bearing element around 90%. Based on the size speed and lubrication technique the classification of the bearing is done. The premature failure of this rolling bearing element is most common and the factors are countless. A very small percentage of these bearings are able to work for full life span provided with operating condition subjected. For all the types of defects in bearings can be studied and characterized by vibration spectrums. In the different types of measurement technique for detecting, the defects in the bearings vibration signature play prominent role. In this paper, a new parametric Analysis of ball bearing in rotating machinery with respect to vibration spectrum is carried out for that an experimental test rig is designed considering the outer race defect in the ball bearing. For these the vibration spectrum obtained for the test ball bearing based on the time and frequency domain is parametrically studied under radial load and constant speed. And these parametric data obtained from the vibration signatures measured for the different time span, is used as statistics for accurate assessment of bearing failure with respect to time and ascertain the exact defect locations in outer race of the bearings.
Source: Materials Today: Proceedings - Category: Materials Science Source Type: research