Abstract
The automotive industry is predominantly driven by legislations on stringent emissions. This has led to the introduction of downsized engines, incorporating turbocharging to maintain output power. As downsized engines have higher combustion pressures, the resulting torsional oscillations (engine order vibrations) are of broadband nature with an increasing severity, which affect noise and vibration response of the drive train system. Palliative devices, such as clutch pre-dampers and dual mass flywheel have been used to mitigate the effect of transmitted engine torsional oscillations. Nevertheless, the effectiveness of these palliative measures is confined to a narrow band of response frequencies. The nonlinear targeted energy transfer is a promising approach to study vibration mitigation within a broader range of frequencies, using nonlinear vibration absorbers (or nonlinear energy sinks – NESs). These devices would either redistribute vibration energy within the modal space of the primary structure, thus dissipating the vibrational energy more efficiently through structural damping, or passively absorb and locally dissipate a part of this energy (in a nearly irreversible manner) from the primary structure. The absence of a linear resonance frequency of an NES, enables its broadband operation (in contrast to the narrowband operation of current linear tuned mass dampers). Parametric studies are reported to determine the effectiveness of various smooth or non-smooth nonlinear stiffness characteristics of such absorbers. A reduced drivetrain model, incorporating single and multiple absorber attachments is used and comparison of the predictions to numerical integrations proves its efficacy.
Highlights
Global exhaust emission legislation requires automotive manufacturers to develop internal combustion engines that produce lower levels of contaminant emissions
In order to attenuate the torsional oscillations, various palliative measures have been implemented in industry, including Clutch pre-dampers (CD) [5], Dual Mass Flywheel (DMF) [2] and DMF with Centrifugal Pendulum Absorbers (CPAs)
A criterion that compares the severity of the 1.5 engine order (EO) harmonic response of the transmission input shaft acceleration in the locked and active systems is used as a performance measure
Summary
Global exhaust emission legislation requires automotive manufacturers to develop internal combustion engines that produce lower levels of contaminant emissions. A NES effectively absorbs the undesired vibratory energy through its oscillations with no preferential natural frequency (since it lacks a linear stiffness part) in a nearly irreversible form, providing another way to reduce the vibration amplitudes of the primary structure [21,22]. In vehicular powertrain applications no use of NES is reported to date, yet there are broadband NVH concerns which are of steady state or transient nature and their interplay is of significant concern They include impulsive broadband action due to impact of transmission gearing, with wave propagation onto thin-walled driveshaft tubes which act as efficient radiators of noise. The main conclusions of this study and suggestions for future work are provided
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