This article presents the results of testing the sound pressure level and sound
power level of the experimental 3PW-KPF1-24-40-2-776 high-pressure gear
pump. Acoustic tests were conducted in an reverberation chamber. The results
of the acoustic power tests indicate good acoustic parameters of the tested
high-pressure unit.
This study examined the impact of mechanical oscillation on a hydraulic directional control valve. Particular attention was paid to the oscillating movement of the spool of the hydraulic directional control valve resulting from this impact. Different models of fluid and mixed friction were considered. The models analysed accounted for the relative movement of the directional control valve body and the fact that it is kinematically excited by external mechanical oscillations. It was observed that the mixed friction model, where the frictional force is considered to be the sum of molecular forces acting in micro-areas of contact and drag forces in the fluid, was the best for describing the movement of the spool for a specific spool oscillation frequency. This model yielded significantly more consistency between the simulated and experimental results than the classic fluid friction model.
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