Relubricating of grease-filled non-contacting sealing systems
F. Bosch, and W. Haas. Sealing Technology, Elsevier Ltd., (2017)620.
Abstract
Research covering the development of non-contacting sealing systems that effectively and efficiently seal lubricating grease has produced very little in the way of generally applicable design rules, resulting in designers having to develop their own systems, according to their specific requirements. Published in two instalments, this article shows that research, which is being done in Germany at the Institute of Machine Components, University of Stuttgart, is attempting to remedy this situation. The first part, which appears here, highlights the lack of design rules and looks at the structure of sealing gaps, the flow of grease in these gaps and the influence gap direction has on the sealing effect.
%0 Journal Article
%1 Bosch.2017b
%A Bosch, Florian
%A Haas, Werner
%D 2017
%J Sealing Technology, Elsevier Ltd.
%K F_Bosch W_Haas dichtungstechnik from:brunomueller from:samuelschwamm ima
%N 6
%P 6–12
%T Relubricating of grease-filled non-contacting sealing systems
%X Research covering the development of non-contacting sealing systems that effectively and efficiently seal lubricating grease has produced very little in the way of generally applicable design rules, resulting in designers having to develop their own systems, according to their specific requirements. Published in two instalments, this article shows that research, which is being done in Germany at the Institute of Machine Components, University of Stuttgart, is attempting to remedy this situation. The first part, which appears here, highlights the lack of design rules and looks at the structure of sealing gaps, the flow of grease in these gaps and the influence gap direction has on the sealing effect.
@article{Bosch.2017b,
abstract = {Research covering the development of non-contacting sealing systems that effectively and efficiently seal lubricating grease has produced very little in the way of generally applicable design rules, resulting in designers having to develop their own systems, according to their specific requirements. Published in two instalments, this article shows that research, which is being done in Germany at the Institute of Machine Components, University of Stuttgart, is attempting to remedy this situation. The first part, which appears here, highlights the lack of design rules and looks at the structure of sealing gaps, the flow of grease in these gaps and the influence gap direction has on the sealing effect.},
added-at = {2020-04-06T14:04:51.000+0200},
author = {Bosch, Florian and Haas, Werner},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2a9e97391d3525d3450bd7744c1fd7c31/test-ima},
interhash = {1f037c6734176a9c2cdd43da7f5c5c58},
intrahash = {a9e97391d3525d3450bd7744c1fd7c31},
issn = {1350-4789},
journal = {Sealing Technology, Elsevier Ltd.},
keywords = {F_Bosch W_Haas dichtungstechnik from:brunomueller from:samuelschwamm ima},
note = 620,
number = 6,
pages = {6–12},
timestamp = {2021-03-25T16:51:15.000+0100},
title = {Relubricating of grease-filled non-contacting sealing systems},
year = 2017
}