Toothed Gear Dynamic Model as a Tool for Assist Diagnosis its Technical Condition

Grzegorz Peruń

doi:10.4028/www.scientific.net/SSP.236.228

Paper Titles

Energy Loss and the Choice of Damper of Torsional Vibration Combustion Engines
p.188

Identification of Engine Operation States Using Advanced Signal Analysis Methods
p.196

Influence of the Instantaneous Angular Speed (IAS) of Marine Diesel Engine on its Indication Results
p.204

Problems of Mathematical Modeling of the Marine Diesel Engine Working Cycle for the Diagnostic Purposes
p.212

The Choice of Vibroacoustic Signal Measures in Mechanical Fault Diagnosis of Diesel Engines
p.220

Toothed Gear Dynamic Model as a Tool for Assist Diagnosis its Technical Condition
p.228

Analysis of Economic Costs and Environmental Benefits of LNG as the Marine Vessel Fuel
p.239

Analysis of Gaseous Degradation Products Occurring during Biomass-to-Liquid Processes
p.247

Mathematical Description of the Trajectory of Vessel Motion in Order to Determine Emission of Harmful Compounds in Exhaust Gases
p.258

HomeSolid State PhenomenaSolid State Phenomena Vol. 236Toothed Gear Dynamic Model as a Tool for Assist...

Toothed Gear Dynamic Model as a Tool for Assist Diagnosis its Technical Condition

Abstract:

This article presents the results obtained with use of author's dynamic model of gears working on power circulating test stand. It was assumed, that properly defined and next identified model can be used to analyze dynamic phenomena in meshing and bearings of gears.The article includes results of simulations of gear with chipped tooth and with partial crack of the pinion. Results of analysis shown, that the occurrence of meshing deviations, makes the detection of damages in the early stages of their growth difficult and the detection may be not possible without using methods of advanced signal analysis.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Solid State Phenomena (Volume 236)

Pages:

228-235

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.236.228

Citation:

Cite this paper

Online since:

July 2015

Authors:

Grzegorz Peruń*

Keywords:

Computer Simulation, Dynamic Model, Gear

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] C. Cempel: Basics of vibro-acoustic diagnostics of machines (in Polish). Wydawnictwa Naukowo-Techniczne. Warszawa (1982).

Google Scholar

[2] A. Grządziela, M. Kluczyk: An application of order tracking procedure for diagnosis technical state of rotor system in shut-down process. Journal of KONES Powertrain and Transport, Vol. 20, No. 1 (2013).

DOI: 10.5604/12314005.1135323

Google Scholar

[3] J. Kozuba, B. Łazarz, R. Konieczko: The impact of the design features of helicopters and their conditions of service of the noise emitted in the interior of the aircraft and its environment (in Polish), Aviation mechanics (ISBN 978-83-932107), ML-XV, 2012, pp.343-359.

Google Scholar

[4] P. Krzyworzeka, W. Cioch: Demodulation of non-stationary machine vibration using cycle-time scale, Archives of Acoustics, vol. 31 no. 2, 2006, p.167–177.

Google Scholar

[5] B. Łazarz, G. Peruń: Dynamic model of the gears working in circulating power system (in Polish). Scientific Papers, Silesian University of Technology nr 1834 Transport 2006 z. 63.

Google Scholar

[6] B. Łazarz, G. Peruń: Identification and verification of simulation model of gears working in circulating power system. Diagnostyka No. 4(52) 2009, pp.55-60.

Google Scholar

[7] B. Łazarz, G. Peruń: Influence of construction factors on the vibrational activity of the gearing. Transport Problems 2012 t. 7 z. 2, pp.95-102.

Google Scholar

[8] B. Łazarz, G. Peruń: Modeling of damages of rolling bearing elements in gears working in circulating power system (in Polish). Scientific Papers, Silesian University of Technology nr 1803 Transport 2008 z. 64, pp.201-208.

Google Scholar

[9] B. Łazarz, G. Peruń: Modeling of surface wear of wheel teeth in gear working in the power transmission system for diagnosis purposes (in Polish). Scientific Papers, Silesian University of Technology nr 1834 Transport 2010 z. 69, pp.91-96.

Google Scholar

[10] L. Müller: Toothed gears. Dynamics (in Polish). Warszawa, WNT (1986).

Google Scholar

[11] G. Peruń: The influence of constructional, operational and technological factors on the vibroactivity of the power transmission system with toothed gear (in Polish). Doctoral dissertation. Silesian University of Technology, Katowice (2010).

Google Scholar

[12] Piľa J.: Vibračné monitorovanie vrtuľníkových reduktorov [Vibration monitoring of helicopter reducers]. Nové trendy v rozvoji letectva. Sekcia 1., Letecké strojárstvo a environmentalistika. – Košice. Vojenská letecká akadémia, 2004, pp.69-74.

Google Scholar

[13] Piľa J. & Sloboda A. ml: Diagnostika vznikajúcich porúch lietadlových a iných mechanizmov [Incipient failure diagnostics of aircraft and other mechanisms]. Kvalita a spoľahlivosť technických systémov. Košice TU, (2005).

Google Scholar

[14] Piľa J. & Sloboda A. ml.: Vibrodiagnostika planétového prevodu vrtuľníkového reduktora VR-24 [Vibrodiagnostics of helicopter planet gearbox VR-24]. Bezpečnosť, kvalita, spoľahlivosť. Košice TU, (2005).

Google Scholar

[15] A. Wilk, H. Madej, B. Łazarz: Vibroactivity of the gear. Influence of design characteristics and wear on the vibroactivity of power transmission system with gear (in Polish). ITE, Katowice-Radom, (2009).

Google Scholar