EXPERIMENTAL INVESTIGATION AND VIBRATION-BASED CONDITION ANALYSIS FOR VARYING LOAD OF GEAR BOX WITH SPUR GEAR ARRANGEMENT TO INCREASE RELIABILITY

Abstract

For many industrial applications, the dependability of gearbox systems is essential, especially when spur gear combinations are involved. In order to increase the reliability of gearboxes, this study focuses on their experimental examination and vibration-based condition analysis under various load settings. Advanced signal processing techniques are used to collect and evaluate vibration data from a gearbox with spur gear arrangements by applying various load scenarios in a methodical manner. The goal of the study is to pinpoint distinctive vibration signatures connected to various operational loads and fault states. The findings show a significant relationship between load fluctuations and particular vibration patterns, which offers important information for the early identification of possible problems. These discoveries can be used to improve maintenance plans and stop unplanned malfunctions, which will extend gearbox lifespan and operating reliability.

This research contributes to the field of predictive maintenance and condition monitoring, offering practical solutions for improving the reliability of mechanical systems in industrial settings.