Skip to the main content

Original scientific paper

https://doi.org/10.17559/TV-20160530090714

Vibration and Temperature Measurement Based Indicator of Journal Bearing Malfunction

Ranko Antunović ; University of Eastern Sarajevo, Faculty of Mechanical Engineering, Vuka Karadzica Street 30, 71123 East Sarajevo, Bosnia and Herzegovina
Amir Halep orcid id orcid.org/0000-0002-1634-1112 ; Cement plant in Kakanj, Selima Efendije Merdanovića Street 146, 72240 Kakanj, Bosnia and Herzegovina
Mihael Bučko orcid id orcid.org/0000-0001-6992-8841 ; University of Defence in Belgrade, Military Academy, Pavla Jurišića Šturma Street 33, 11000 Belgrade, Serbia
Sreten Perić ; University of Defence in Belgrade, Military Academy, Pavla Jurišića Šturma Street 33, 11000 Belgrade, Serbia
Nikola Vučetić ; University of Eastern Sarajevo, Faculty of Mechanical Engineering, Vuka Karadzica Street 30, 71123 East Sarajevo, Bosnia and Herzegovina


Full text: english pdf 1.918 Kb

page 991-996

downloads: 1.053

cite


Abstract

This paper aims to present the development and implementation of the new malfunction indicator in journal bearings, based on vibrational and thermal records, called DFJB-Defect Factor Journal Bearing. Briefly, the indicator contains the specifically processed information about the bearing vibrations and temperature, on the basis of which the DFJB is calculated using fuzzy logic, and thus the state of the journal bearing may be determined. It should be pointed out that the DFJB is developed in a manner that besides the temperature and the total number of absolute vibrations, it may also integrate following parameters of monitoring: the parameters of rotating vibrations, vibrations spectrum, the thickness of oil film in the journal bearing, the intensity of the ultrasound emission of the bearing etc. These parameters may in certain cases offer more reliable malfunction identification. Experimental investigations conducted in this work, on real machine equipment and in real exploitation conditions, have shown this method to be reliable in the identification of malfunctions in journal bearings. As a result of implementation of DFJB, the time necessary to collect measuring data is significantly shortened, whereas the diagnosis procedure for journal bearings is highly simplified. This is particularly important in complex technical systems with a vast number of measuring points, which often result in the overload of the operator.

Keywords

bearing vibration; fuzzy operator; journal bearing; prediction

Hrčak ID:

204443

URI

https://hrcak.srce.hr/204443

Publication date:

20.8.2018.

Visits: 2.223 *