Weight-Vibration Pareto Optimization of a Dual Mass Flywheel
Journal article, 2022
By using the methodology of the multiobjective optimal design of engineering systems, we consider the problem of weight-vibration Pareto optimization of a dual mass flywheel with an aim to study the feasibility of its application in heavy-duty truck powertrains. The results obtained show the following: the solution of the considered optimization problem does exist; the mass inertia, stiffness, and damping parameters of the absorber optimized in an operating engine speed range of 600–2000 rpm exist and provide the best attenuation of the torque oscillation at the transmission input shaft. Finally, the obtained results show the feasibility evidence for the application of weight-vibration optimized dual mass flywheels in heavy-duty truck drivetrain systems.
drivetrain system of a heavy-duty truck
torsional vibration absorber
dual mass flywheel
global sensitivity analysis
weight-vibration Pareto optimization
Author
Viktor Berbyuk
Chalmers, Mechanics and Maritime Sciences (M2), Dynamics
Journal of Mathematical Sciences
1072-3374 (ISSN) 15738795 (eISSN)
Vol. 263 1 1-14Reduced vibration transmissions - reduced energy consumption and environmental impacts together with an increased competitiveness
Swedish Energy Agency (ScaniaCVAB), 2016-04-01 -- 2020-03-31.
Areas of Advance
Transport
Subject Categories
Applied Mechanics
Computational Mathematics
Vehicle Engineering
DOI
10.1007/s10958-022-05917-6