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Diagnosis of faults in the bearings by electrical measures andnumerical simulations

Published online by Cambridge University Press:  05 September 2014

Charles Machado*
Affiliation:
Laboratoire des Technologies Innovantes (LTI EA 3899), UPJV, 48 rue Raspail, 02100 Saint-Quentin, France
Mohamed Guessasma
Affiliation:
Laboratoire des Technologies Innovantes (LTI EA 3899), UPJV, 48 rue Raspail, 02100 Saint-Quentin, France
Emannuel Bellenger
Affiliation:
Laboratoire des Technologies Innovantes (LTI EA 3899), UPJV, 48 rue Raspail, 02100 Saint-Quentin, France
Khaled Bourbatache
Affiliation:
LGCGM, INSA de Rennes, 35000 Rennes, France
Valéry Bourny
Affiliation:
Laboratoire des Technologies Innovantes (LTI EA 3899), UPJV, 48 rue Raspail, 02100 Saint-Quentin, France
Jérôme Fortin
Affiliation:
Laboratoire des Technologies Innovantes (LTI EA 3899), UPJV, 48 rue Raspail, 02100 Saint-Quentin, France
*
a Corresponding author: charles.machado@u-picardie.fr
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Abstract

This project represents a straight continuation of the research activities of the LTI andwhich helped to simulate and understand the electrical response of multi-contact systems.In order to make further progress in the electrical modeling, the electrical transfermodel is applied to the case of bearing operation. The 2D modeling by discrete elementsreproduces the dynamic bearing. The method proposes to take measurements of electricalresistance on bearings to detect defects. This is an original method that stems from workpublished in MSSP. Indeed, while many studies have been conducted on monitoring bearingdefects by analyzing vibration signals, the use of localized electrical measurements onbearings is a promising approach, not yet exploited. The introduction of the firstdefects, as a local breaking of mechanical contact causes periodic disturbances in thecalculation of the electrical resistance. One of our objectives is to characterize thedefects position and the size of the defects, by analyzing disturbances in the electricalmeasurement.

Type
Research Article
Copyright
© AFM, EDP Sciences 2014

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References

Tandon, N., Choudhury, A., A review of vibration and acoustic measurement methods for the detection of defects in rolling element bearings, Tribol. Int. 32 (1999) 469480 CrossRefGoogle Scholar
Sassi, S., Badri, B., Thomas, M., Tracking surface degradation of ball bearings by means of new time domain scalar indicators, Int. J. of COMADEM 11 (2008) 36−45 Google Scholar
T. Harris, Rooling Bearing Analysis, Wiley and Sons, 2001
De Saxcé, G., Fortin, J., Millet, O., About numerical simulation of the dynamics of granular media and the definition of the mean stress tensor, Mech. Mater. 36 (2004) 11751184 CrossRefGoogle Scholar
Fortin, J., Millet, O., De Saxcé, G., Numerical simulation of granular materials by an improved discrete element method, Int. J. Numer. Methods Eng. 62 (2004) 639663 CrossRefGoogle Scholar
Bourbatache, K., Guessasma, M., Bellenger, E., Bourny, V., Tekaya, A., Discrete modelling of electrical transfer in multi-contact systems, Granular Matter 14 (2012) 110 CrossRefGoogle Scholar
Sanni, I., Bellenger, E., Fortin, J., Coorevits, P., A reliable algorithm to solve 3D frictional multi-contact problems: application to granular media, J. comput. Appl. Math. 234 (2010) 11611171 CrossRefGoogle Scholar
Jean, M., The non-smooth contact dynamics method, Comput. Methods Appl. Mech. Eng. 177 (1999) 235257 CrossRefGoogle Scholar
Moreau, J.J., Some numerical methods in multibody dynamics: application to granular materials, Eur. J. Mech. A Solids 13 (1994) 93114 Google Scholar
Greenwood, J., Analysis of a elliptical Hertzian contact, Tribol. Int. 30 (1997) 235237 CrossRefGoogle Scholar