Various operating conditions can cause sealing systems to be insufficiently supplied with oil, resulting in starved lubrication. This paper deals with the experimental investigation of starved
lubrication operating conditions. For this purpose, the test rig configuration used is introduced. The influence of starved lubrication on 3 different sealing systems was investigated. In addition to a standard elastomeric rotary shaft seal, a multi-lip initially grease-filled elastomeric rotary shaft seal and a PTFE sleeve with circumferential grooves were employed. The results show that the standard rotary shaft seal is unsuitable for the investigated starved lubrication conditions. The other two sealing systems performed better in comparison and are suitable for operation with a starved oil supply, at least for short durations.
%0 Generic
%1 merkle2022sealing
%A Merkle, Lukas
%A Grün, Jeremias
%A Baumann, Matthias
%A Bauer, Frank
%B International Sealing Conference
%C Frankfurt am Main
%D 2022
%E VDMA e.V., Fachverband Fluidtechnik
%I Fachverband Fluidtechnik im VDMA e.V.
%K F_Bauer J_Grün L_Merkle M_Baumann dichtungstechnik ima presentation
%P 561- 567
%R 10.61319/313EHZ1Q
%T Sealing Systems under Starved Lubrication Conditions
%U https://doi.org/10.61319/313EHZ1Q
%X Various operating conditions can cause sealing systems to be insufficiently supplied with oil, resulting in starved lubrication. This paper deals with the experimental investigation of starved
lubrication operating conditions. For this purpose, the test rig configuration used is introduced. The influence of starved lubrication on 3 different sealing systems was investigated. In addition to a standard elastomeric rotary shaft seal, a multi-lip initially grease-filled elastomeric rotary shaft seal and a PTFE sleeve with circumferential grooves were employed. The results show that the standard rotary shaft seal is unsuitable for the investigated starved lubrication conditions. The other two sealing systems performed better in comparison and are suitable for operation with a starved oil supply, at least for short durations.
%@ 978-3-8163-0756-3
@conference{merkle2022sealing,
abstract = {Various operating conditions can cause sealing systems to be insufficiently supplied with oil, resulting in starved lubrication. This paper deals with the experimental investigation of starved
lubrication operating conditions. For this purpose, the test rig configuration used is introduced. The influence of starved lubrication on 3 different sealing systems was investigated. In addition to a standard elastomeric rotary shaft seal, a multi-lip initially grease-filled elastomeric rotary shaft seal and a PTFE sleeve with circumferential grooves were employed. The results show that the standard rotary shaft seal is unsuitable for the investigated starved lubrication conditions. The other two sealing systems performed better in comparison and are suitable for operation with a starved oil supply, at least for short durations.},
added-at = {2024-01-15T16:45:26.000+0100},
address = {Frankfurt am Main},
author = {Merkle, Lukas and Grün, Jeremias and Baumann, Matthias and Bauer, Frank},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/25d97bcb1ed709113244a4c8438d81ddd/ima-publ},
booktitle = {International Sealing Conference},
day = {12.-13. },
doi = {10.61319/313EHZ1Q},
editor = {VDMA e.V., Fachverband Fluidtechnik},
eventdate = {12.-13. Oktober 2022},
eventtitle = {21st International Sealing Conference (ISC)},
interhash = {2992d8a51ce690cacfd9ec50597b2e3c},
intrahash = {5d97bcb1ed709113244a4c8438d81ddd},
isbn = {978-3-8163-0756-3},
keywords = {F_Bauer J_Grün L_Merkle M_Baumann dichtungstechnik ima presentation},
month = {Oktober},
note = 735,
pages = {561- 567},
publisher = {Fachverband Fluidtechnik im VDMA e.V.},
timestamp = {2024-01-26T11:07:22.000+0100},
title = {Sealing Systems under Starved Lubrication Conditions},
url = {https://doi.org/10.61319/313EHZ1Q},
venue = {Stuttgart},
year = 2022
}