Detail publikace
A Review of the Design and Optimization of Large-scale Hydrostatic Bearing Systems
MICHALEC, M. SVOBODA, P. KŘUPKA, I. HARTL, M.
Anglický název
A Review of the Design and Optimization of Large-scale Hydrostatic Bearing Systems
Typ
článek v časopise ve Web of Science, Jimp
Jazyk
en
Originální abstrakt
In the last decades, the demand for hydrostatic bearings application has been rising due to the possibilities and advantages they offer. The advancements in hydrostatic lubrication understanding and computer technology improvement opened new ways for hydrostatic bearing performance and precision improvement. The emergence of the trend Industry 4.0 has brought new challenges and opportunities to the heavy machinery industry. This paper reviews the overall design and optimization processes for large-scale hydrostatic bearing geometry including the hydraulic system. The latest developments in the bearing geometry optimization, pressurized fluid supply components, and flow control devices are discussed. Moreover, possible measures for avoiding costly maintenance and repairs of the hydrostatic bearing are proposed. Finally, potential future research directions in large-scale hydrostatic bearing development are suggested. This review offers a comprehensive summary of potential problems and possible solutions in the large-scale hydrostatic bearing design, and simultaneously, serves as a supporting material to overcome potential obstacles that might emerge during manufacturing, assembly, and service.
Anglický abstrakt
In the last decades, the demand for hydrostatic bearings application has been rising due to the possibilities and advantages they offer. The advancements in hydrostatic lubrication understanding and computer technology improvement opened new ways for hydrostatic bearing performance and precision improvement. The emergence of the trend Industry 4.0 has brought new challenges and opportunities to the heavy machinery industry. This paper reviews the overall design and optimization processes for large-scale hydrostatic bearing geometry including the hydraulic system. The latest developments in the bearing geometry optimization, pressurized fluid supply components, and flow control devices are discussed. Moreover, possible measures for avoiding costly maintenance and repairs of the hydrostatic bearing are proposed. Finally, potential future research directions in large-scale hydrostatic bearing development are suggested. This review offers a comprehensive summary of potential problems and possible solutions in the large-scale hydrostatic bearing design, and simultaneously, serves as a supporting material to overcome potential obstacles that might emerge during manufacturing, assembly, and service.
Klíčová slova anglicky
Hydrostatic lubrication; Hydraulic system; Machine design; Fail-safe measures; Geometric errors
Vydáno
02.08.2021
Nakladatel
Elsevier
ISSN
2215-0986
Ročník
24
Číslo
4
Strany od–do
936–958
Počet stran
23
BIBTEX
@article{BUT168322,
author="Michal {Michalec} and Petr {Svoboda} and Jan {Krupka} and Ivan {Křupka} and Martin {Hartl},
title="A Review of the Design and Optimization of Large-scale Hydrostatic Bearing Systems",
year="2021",
volume="24",
number="4",
month="August",
pages="936--958",
publisher="Elsevier",
issn="2215-0986"
}