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Efficiency comparison of various friction models of a hydraulic cylinder in the framework of multibody system dynamics

Suraj Jaiswal, Jussi Sopanen, Aki Mikkola

2021Nonlinear Dynamics47 citationsDOIOpen Access PDF

Abstract

Abstract Dynamic simulation of mechanical systems can be performed using a multibody system dynamics approach. The approach allows to account systems of other physical nature, such as hydraulic actuators. In such systems, the nonlinearity and numerical stiffness introduced by the friction model of the hydraulic cylinders can be an important aspect to consider in the modeling because it can lead to poor computational efficiency. This paper couples various friction models of a hydraulic cylinder with the equations of motion of a hydraulically actuated multibody system in a monolithic framework. To this end, two static friction models, the Bengisu–Akay model and Brown–McPhee model, and two dynamic friction models, the LuGre model and modified LuGre model, are considered in this work. A hydraulically actuated four-bar mechanism is exemplified as a case study. The four modeling approaches are compared based on the work cycle, friction force, energy balance, and numerical efficiency. It is concluded that the Brown–McPhee approach is numerically the most efficient approach and it is well able to describe usual friction characteristics in dynamic simulation of hydraulically actuated multibody systems.

Topics & Concepts

Multibody systemHydraulic cylinderWork (physics)Nonlinear systemSystem dynamicsControl theory (sociology)StiffnessMechanical systemHydraulic machineryActuatorCylinderEngineeringMechanical engineeringComputer scienceStructural engineeringClassical mechanicsPhysicsControl (management)Quantum mechanicsArtificial intelligenceElectrical engineeringDynamics and Control of Mechanical SystemsHydraulic and Pneumatic SystemsVibration and Dynamic Analysis
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