6. Vibratory monitoring and diagnostics techniques and the results of measurement

Rudolf Martonka1, Vitezslav Fliegel2

Technical University of Liberec, Department of Design of Machines and Mechanisms,
Liberec, Czech Republic

1Corresponding author

E-mail: 1rudolf.martonka@tul.cz, 2vitezslav.fliegel@tul.cz

(Received 22 October 2012; accepted 4 March 2013)

Abstract. The laboratory testing of the influence of the mechanical vibration on the materials is very important for every applied research. By acting on the materials and construction of static and dynamic forces in laboratory conditions we can predict what will be their probable behaviour in reality. Always we are needed parallel verifications of results of computer simulations with the real or laboratory experiment. The laboratory equipment is also important to research the validity of the required standards and implementing the long-term tests which would be very expensive in reality. Our laboratory passed of series of mechanical innovations, and today we can test as the specimens as the whole structures. In this paper we present our possibilities and some tests of materials to product automobile seats.

Keywords: vibratory monitoring, diagnostics techniques, measurement, biomaterial.

References

[1]        EN ISO 3386-1. Polymeric Materials. Cellular Flexible Determination of Stress-Strain Characteristic in Compression Part 1: Low-Density Materials.

[2]        Jevremovic Z., Peulic A., Jordovic B. Trends in the Development of Machinery and Associated Technology. 15th International Research/Expert Conference, Prague, Czech Republic, 2011.

Cite this article

Martonka Rudolf, Fliegel Vitezslav Vibratory monitoring and diagnostics techniques and the results of measurement. Journal of Measurements in Engineering, Vol. 1, Issue 1, 2013, p. 35‑39.

 

Journal of Measurements in Engineering. March 2013, Volume 1, Issue 1
Vibroengineering. ISSN Print 2335-2124, ISSN Online 2424-4635, Kaunas, Lithuania