Журнал Российского общества по неразрушающему контролю и технической диагностике
The journal of the Russian society for non-destructive testing and technical diagnostic
 
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22 | 12 | 2024
2014, 03 March

DOI: 10.14489/td.2014.03.pp.012-018 

 

Zusman G. V.
VIBRATION DIAGNOSTICS AND MODERN MEASURING VIBRATIONS MEANS
(pp. 12–18)

Abstract. Modern means of measuring vibration parameters provide accurate conversion of vibrations into an electrical signal proportional to the parameters vibrations, and its transmission to the system diagnostics. The problems related to the accuracy of the measurement of vibration parameters, such as the false low-frequency vibration, causes and remedies of removal are considered.

Keywords: vibration diagnostics, inverse problem, measurement, false diagnosis, piezoelectric transducer, low-frequency vibration, sensor, filter, vibration protection.

 

G. V. Zusman 
JSC RII “Spectrum“, Moscow, Russia. E-mail: Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.  

 

 

1. Zusman G. V., Barkov A. V. (2011). Vibrodiagnostics. Moscow: Izdatel'skii dom "Spektr".
2. Ming Xu. Spike energy measurement and case stadies in machinery condition monitoring. (1999). Proc. of 23rd Vibration Institute Annual Meeting, June 8 – 10, 1999, pp. 37 – 47.
3. Zusman G. (2012). Hand-held Vibration Sensor. International Patent Application PCT/US12/57704.
4. Zusman G., Gardner G. (2012). Overall vibration, severity levels and crest factor plus. FLUKE.
5. Zusman G., Corelli D. (2010). Vibration Sensor with Mechanical Isolation Member. Pat. Application 12/898240 US.
6. Barclay J. T., Maness P. L. (1996). Digitally linearizing eddy current probe. Pat. 5 854 553 US.
7. Zusman G. (2006). Field programmable driver/ transmitter for a proximity probe. Pat. 7 141 985 US.
8. Zusman G. (2007). Protection apparatus for reciprocating machine. Pat. 7 171 313 US.
9. Zusman G., Corelli D. (2012). Shock monitoring technology for reciprocating machinery. Available at: www.IMI-sensors.com
10. Zavartsev I. D. et al. (2003). Method of growing piezoelectric lanthanide gallium crystals. Pat. 6 514 336 US.
11. Zusman G. (2011). Programmable sensor – bearing condition transmitter. Vibration institute. 35th Annual Meeting, San Antonio, Texas, June 21 – 24, 2011. Jan Antonio, pp. 129 – 134.
12. Zusman G. (2012). Programmable Sensor. The 19th International Congress on Sound and Vibration, Vilnius, Lithuania, July 08 – 12, 2012. Vilnius, p. 51.

 

 

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