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Light duty automotive duplex drum brake squeal analysis using the finite element method

Anderson Luiz Dias, R N Rodrigues, Renato Félix Amorim Bezerra, Pierre Lamary, MHP Miranda

2021Proceedings of the Institution of Mechanical Engineers Part C Journal of Mechanical Engineering Science10 citationsDOI

Abstract

The brake system creation is an important achievement for automotive production. However there is a secondary response of this system, its noise emission. Brake noise researches started in 1920’s and since then several causes were identified. In addition, many kinds of noises, their frequency range and characteristics were detected. Between these, the squeal is the noise that most concerns the automotive industry by reason of high warranty costs and environmental impact. The squeal noise occurs as a result of three mechanisms that are the stick-slip, the sprag-slip and the modal coupling and these are connected to material parameters of the brake components. This paper proposes a correlation between material and stability parameters of a light duty automotive duplex drum brake to indicate the influence of this on brake squeal. The results suggest that friction coefficient is the most influential parameter and its restrain does make possible to maintain squeal level under emissions regulations.

Topics & Concepts

Automotive industryBrakeAutomotive engineeringFinite element methodModalDisc brakeNoise (video)Modal analysisHeavy dutySlip (aerodynamics)EngineeringMaterials scienceComputer scienceStructural engineeringComposite materialImage (mathematics)Artificial intelligenceAerospace engineeringBrake Systems and Friction AnalysisVehicle Noise and Vibration ControlCellular and Composite Structures
Light duty automotive duplex drum brake squeal analysis using the finite element method | Litcius