This contribution presents an elastohydrodynamic lubrication (EHL) model for pneumatic spool valves. For an accurate estimation of the transient friction of this tribological sealing system, the surface topography of the cylindrical sealing counterfaces of the valve housings are measured and analyzed with an optical surface measurement instrument. Based on the surface topography data, tribological properties and flow factors of the system are derived. It has been found that the consideration of the surface topography has a significant influence on the simulation results of the EHL model, lowering the calculated friction force by up to 20 %.
%0 Journal Article
%1 bauer2023elastohydrodynamic
%A Bauer, Niklas
%A Baumann, Matthias
%A Feldmeth, Simon
%A Bauer, Frank
%A Schmitz, Katharina
%D 2023
%J Chemical Engineering & Technology
%K F_Bauer K_Schmitz M_Baumann N_Bauer S_Feldmeth dichtungstechnik ima peer-review
%N 1 Special Issue: Digital Reliable Sustainable
%P 167-174
%R 10.1002/ceat.202200471
%T Elastohydrodynamic Simulation of Pneumatic Sealing Friction Considering 3D Surface Topography
%U https://doi.org/10.1002/ceat.202200471
%V 46
%X This contribution presents an elastohydrodynamic lubrication (EHL) model for pneumatic spool valves. For an accurate estimation of the transient friction of this tribological sealing system, the surface topography of the cylindrical sealing counterfaces of the valve housings are measured and analyzed with an optical surface measurement instrument. Based on the surface topography data, tribological properties and flow factors of the system are derived. It has been found that the consideration of the surface topography has a significant influence on the simulation results of the EHL model, lowering the calculated friction force by up to 20 %.
@article{bauer2023elastohydrodynamic,
abstract = {This contribution presents an elastohydrodynamic lubrication (EHL) model for pneumatic spool valves. For an accurate estimation of the transient friction of this tribological sealing system, the surface topography of the cylindrical sealing counterfaces of the valve housings are measured and analyzed with an optical surface measurement instrument. Based on the surface topography data, tribological properties and flow factors of the system are derived. It has been found that the consideration of the surface topography has a significant influence on the simulation results of the EHL model, lowering the calculated friction force by up to 20 %.},
added-at = {2023-02-23T15:11:49.000+0100},
author = {Bauer, Niklas and Baumann, Matthias and Feldmeth, Simon and Bauer, Frank and Schmitz, Katharina},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2bf224cb6d1919b9331ff4ba6e3776625/ima-publ},
doi = {10.1002/ceat.202200471},
interhash = {ed490e3be08a3c1a686153a981d30022},
intrahash = {bf224cb6d1919b9331ff4ba6e3776625},
issn = {1521-4125},
journal = {Chemical Engineering & Technology},
keywords = {F_Bauer K_Schmitz M_Baumann N_Bauer S_Feldmeth dichtungstechnik ima peer-review},
language = {english},
month = {1},
note = {737 (peer-review)},
number = {1 Special Issue: Digital Reliable Sustainable},
pages = {167-174},
timestamp = {2023-11-07T16:38:43.000+0100},
title = {Elastohydrodynamic Simulation of Pneumatic Sealing Friction Considering 3D Surface Topography},
url = {https://doi.org/10.1002/ceat.202200471},
volume = 46,
year = 2023
}