The theoretical model for determinig critical rotation speed flexible coupling type SEGE

The theoretical model for determinig critical rotation speed flexible coupling type SEGE

It this article was studied a flexible coupling with a rubber elastic element. In exploitation period under one direction load, half of all cylinders are working. All of cylinders are made along with a carrying ring. The elastic elements are subjected to compression. On the non-loaded cylinders,...

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Bibliographic Details
Main Author: E Ivanova
Format: Article
Language:English
Published: Naval Academy Press 2018-06-01
Series:Scientific Bulletin of Naval Academy
Subjects:
flexible coupling
rubber element
critical speed
Online Access:https://www.anmb.ro/buletinstiintific/buletine/2018_Issue1/01_MES/103.pdf
Description
Summary:It this article was studied a flexible coupling with a rubber elastic element. In exploitation period under one direction load, half of all cylinders are working. All of cylinders are made along with a carrying ring. The elastic elements are subjected to compression. On the non-loaded cylinders, a centrifugal force acts to cause their radial displacement. By the slow rubber relaxation of not loaded cylinders, in the case of reverse and impact load it is danger of can be pinched between the metal claws of semi couplings. Radial displacement and critical rotation speeds were determined, for non-loaded cylinders, in the time which is derived pinching the rubber elastic element.
ISSN:2392-8956
1454-864X

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