An Optimal Design Method of Hydrostatic Turntable Based on FPSO Algorithm

Yongsheng Zhao; Jiaqing Luo; Ying Li; Tao Zhang; Honglie Ma

doi:10.5545/sv-jme.2025.1366

Authors

Yongsheng Zhao Institute of Advanced Manufacturing and Intelligent Technology, Beijing University of Technology, China
Jiaqing Luo Institute of Advanced Manufacturing and Intelligent Technology, Beijing University of Technology, China
Ying Li Institute of Advanced Manufacturing and Intelligent Technology, Beijing University of Technology, China
Tao Zhang Institute of Advanced Manufacturing and Intelligent Technology, Beijing University of Technology, China
Honglie Ma Institute of Advanced Manufacturing and Intelligent Technology, Beijing University of Technology, China

DOI:

https://doi.org/10.5545/sv-jme.2025.1366

Keywords:

hydrostatic turntable, finite difference method, Reynolds equation, fuzzy particle swarm optimization algorithm, performance optimization

Abstract

The load capacity of hydrostatic turntables is predominantly governed by the design of oil pads. Optimizing oil pad parameters can substantially enhance turntable performance while reducing power consumption. This study introduces a fuzzy particle swarm optimization (FPSO) algorithm that incorporates compression factors into the particle swarm optimization (PSO) framework to optimize the parameters of oil pads. Reduce its power consumption by about 40 %, while the error between experimental and theoretical values is only 8 %. Compared with traditional PSO algorithms, FPSO converges more reliably in multiparametric environments.

An Optimal Design Method of Hydrostatic Turntable Based on FPSO Algorithm

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