Characteristics of the Main Journal Bearings of an Engine Based on Non-linear Dynamics

Abstract

Many simple nonlinear main journal bearing models have been studied theoretically,but the connection to existing engineering system has not been equally investigated.The consideration of the characteristics of engine main journal bearings may provide a prediction of the bearing load and lubrication.Due to the strong non-linear features in bearing lubrication procedure,it is difficult to predict those characteristics.A non-linear dynamic model is described for analyzing the characteristics of engine main journal bearings.Components such as crankshaft,main journals and con rods are found by applying the finite element method.Non-linear spring/dampers are introduced to imitate the constraint and supporting functions provided by the main bearing and oil film.The engine gas pressure is imposed as excitation on the model via the engine piston,con rod,etc.The bearing reaction force is calculated over one engine cycle,and meanwhile,the oil film thickness and pressure distribution are obtained based on Reynolds differential equation.It can be found that the maximum bearing reaction force always occurs when the maximum cylinder pressure arises in the cylinder adjacent to that bearing.The simulated minimum oil film thickness,which is 3 μm,demonstrates the reliability of the main journal bearings.This non-linear dynamic analysis may save computing efforts of engine main bearing design and also is of good precision and close connection to actual engine main journal bearing conditions.