Dynamic modeling and surface integrity optimization of low-frequency hydraulic impulse systems
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Karaganda National Research University named after academician E.A. Buketov
Abstract
This study investigates the dynamic behavior and surface integrity optimization of low-frequency
hydraulic impulse systems operating under cyclic loading conditions. Particular attention is paid to the
performance of the hydraulic module rod, which is subjected to repeated dynamic impacts during system operation.
The influence of surface roughness, residual stresses, and microhardness on vibration stability and durability of
friction pairs is analyzed. A dynamic mathematical model describing pressure variation, piston motion, and energy
transfer within the hydraulic impulse chamber is developed. The model is implemented in the MATLAB/Simulink
simulation environment for numerical analysis of transient processes. Experimental studies were conducted on
cylindrical rod-type specimens made of 30KhGSA alloy steel processed using rotary multi-blade turning
technology. The experimental results demonstrate that optimization of machining parameters significantly improves
surface quality and reduces vibration amplitude of the hydraulic impulse system. The proposed modeling approach
enables prediction of system dynamic behavior and provides a basis for improving operational stability. The
obtained results confirm that the integration of advanced machining technologies with digital modeling tools can
increase the reliability and efficiency of hydraulic impulse systems used in industrial applications.
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Citation
Smakova N. Dynamic modeling and surface integrity optimization of low-frequency hydraulic impulse systems/N.Smakova [et al]//Eurasian Physical Technical Journal. - 2026. - Volume 23. - № 1(55). - P. 113-120