Litcius/Paper detail

Design and test of hydro-pneumatic ISD suspension in heavy multi-axle vehicles

Jiamei Nie, Fengli Wang, Xiaoliang Zhang, Yongjie Yang

2021Advances in Mechanical Engineering12 citationsDOIOpen Access PDF

Abstract

Aiming to improve the road friendliness so as to reduce the road damage caused by heavy multi-axle vehicles, and to enhance the ride comfort, we propose a kind of hydro-pneumatic ISD suspension structure, which is equivalent to a two-stage ISD structure integrating a traditional hydro-pneumatic suspension and a fluid inerter. Firstly, based on the 1/4 model, a genetic algorithm is used to optimize the key structural parameters of hydro-pneumatic ISD suspension. Secondly, the AMESim dynamic model of heavy multi-axle vehicles is built for the performance comparison between the traditional hydraulic and hydro-pneumatic ISD suspensions. Finally, this paper machines a hydro-pneumatic ISD suspension to replace the traditional hydraulic one in a heavy multi-axle vehicle to carry out a road test. Test results indicate that the proposed suspension can effectively restrain the vibrations of sprung and unsprung mass and improve ride comfort as well as road friendliness. The hydro-pneumatic ISD suspension can be applied to engineering.

Topics & Concepts

Suspension (topology)AxleAutomotive engineeringSprung massEngineeringVibrationComputer scienceStructural engineeringDamperHomotopyPure mathematicsQuantum mechanicsPhysicsMathematicsVibration Control and Rheological FluidsHydraulic and Pneumatic SystemsElevator Systems and Control