Increased wear on radial lip seal systems is observed when sealing modern lubricants, such as polyglycols and esters. This can impair the function of the sealing system and ultimately lead to leakage. This work, carried out within the AiF research project “Welleneinlauf” (wear of counter faces) 1, shows methods to identify and predict excessive wear of radial lip sealing systems based on their wetting properties and pumping rate. The knowledge gained will support users by providing faster and more cost-effective testing methods early in the design process, thus enables a significant increase in the service life of radial lip sealing systems.
%0 Journal Article
%1 fricker2023wetting
%A Fricker, Philipp
%A Baumann, Mathias
%A Bauer, Frank
%D 2023
%J Chemical Engineering Technology
%K F_Bauer M_Baumann P_Fricker dichtungstechnik ima peer-review
%N 1
%P 61-70
%R doi.org/10.1002/ceat.202200375
%T How Wetting Properties Influence the Wear of Radial Lip Sealing System
%U https://doi.org/10.1002/ceat.202200375
%V 46
%X Increased wear on radial lip seal systems is observed when sealing modern lubricants, such as polyglycols and esters. This can impair the function of the sealing system and ultimately lead to leakage. This work, carried out within the AiF research project “Welleneinlauf” (wear of counter faces) 1, shows methods to identify and predict excessive wear of radial lip sealing systems based on their wetting properties and pumping rate. The knowledge gained will support users by providing faster and more cost-effective testing methods early in the design process, thus enables a significant increase in the service life of radial lip sealing systems.
@article{fricker2023wetting,
abstract = {Increased wear on radial lip seal systems is observed when sealing modern lubricants, such as polyglycols and esters. This can impair the function of the sealing system and ultimately lead to leakage. This work, carried out within the AiF research project “Welleneinlauf” (wear of counter faces) [1], shows methods to identify and predict excessive wear of radial lip sealing systems based on their wetting properties and pumping rate. The knowledge gained will support users by providing faster and more cost-effective testing methods early in the design process, thus enables a significant increase in the service life of radial lip sealing systems.},
added-at = {2022-12-19T12:20:48.000+0100},
author = {Fricker, Philipp and Baumann, Mathias and Bauer, Frank},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2bc68d97e6ab9b5b4fec1b3a5a1bfa7e6/ima-publ},
doi = {doi.org/10.1002/ceat.202200375},
interhash = {cabb1f5746c18e4e717c06b48e896c80},
intrahash = {bc68d97e6ab9b5b4fec1b3a5a1bfa7e6},
issn = {1521-4125},
journal = {Chemical Engineering Technology},
keywords = {F_Bauer M_Baumann P_Fricker dichtungstechnik ima peer-review},
language = {english},
month = {1},
note = {725 (peer-review)},
number = 1,
pages = {61-70},
timestamp = {2023-11-07T16:32:29.000+0100},
title = {How Wetting Properties Influence the Wear of Radial Lip Sealing System},
url = {https://doi.org/10.1002/ceat.202200375},
volume = 46,
year = 2023
}