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The article deals with the design of equipment and its application possibilities for on-line monitoring of operational stress traverse mechanisms. By processing of load spectra it is possible to predict the remaining life in the selected areas of the construction.
Czasopismo
Rocznik
Tom
Strony
15--20
Opis fizyczny
Bibliogr. 14 poz., fot., rys., tab.
Twórcy
autor
- Technical University of Košice, Faculty of Mechanical Engineering Letná 9, 042 00 Košice, Slovak Republic
autor
- Technical University of Košice, Faculty of Mechanical Engineering Letná 9, 042 00 Košice, Slovak Republic
autor
- Technical University of Košice, Faculty of Mechanical Engineering Letná 9, 042 00 Košice, Slovak Republic
autor
- Technical University of Košice, Faculty of Mechanical Engineering Letná 9, 042 00 Košice, Slovak Republic
Bibliografia
- [1] Chan, T. H. T., Li, Z. X., & Ko, J. M. (2001). Fatigue analysis and life prediction of bridges with structural health monitoring data - Part II: Application. International Journal of Fatigue, 23(1), p. 55-64.
- [2] Nikishkov, Y., Makeev, A., & Seon, G. (2013). Progressive fatigue damage simulation method for composites. International Journal of Fatigue, 48, p. 266-279.
- [3] Susmel, L., & Taylor, D. (2012). A critical distance/plane method to estimate finite life of notched components under variable amplitude uniaxial/multiaxial fatigue loading. International Journal of Fatigue, 38, p. 7-24.
- [4] Izrael, G., Bukoveczky, J., Gulan, L. (2011). Influence of nonstandard loads onto life of chosen modules of mobile working machines. In Machine Design. Vol. 3, No. p. 13-16. ISSN 1821-1259.
- [5] Sága, M., Vaško, M., Pecháč, P. (2014). Chosen Numerical Algorithms for Interval Finite Element Analysis. In Procedia Engineering, Vol. 96, p. 400-409, ISSN 1877-7058.
- [6] Lindgren, G., & Rychlik, I. (1987). Rain Flow Cycle Distributions for Fatigue Life Prediction under Gaussian Load Processes. Fatigue & Fracture of Engineering Materials & Structures, 10(3), p. 251-260.
- [7] Rychlik, I., & Gupta, S. (2007). Rain-flow fatigue damage for transformed gaussian loads. International Journal of Fatigue, 29(3), p. 406-420.
- [8] Tovo, R. (2000). Damage-based evaluation of probability density distribution for rain-flow ranges from random processes. International Journal of Fatigue, 22(5), p. 425-429.
- [9] Konieczny Ł., Burdzik R., Warczek J., Czech P., Wojnar G., Młyńczak J. (2015) Determination of the effect of tire stiffness on wheel accelerations by the forced vibration test method. Journal of Vibroengineering. Volume 17, Issue 8, p. 4469-4477. ISSN: 1392-8716.
- [10] Bigoš, P.,Trebuňa, F. (1997). Intensification of technical ability for heavy supporting constructions. Vienala, Košice, 345 pages, ISBN 80-967325-3-6.
- [11] Čačko, J., Bílý, M., Bukoveczky, J. (1984). Measuring, evaluation and simulation of operational random processes, Science, Bratislava, 216 pages, ISBN 71-070-83.
- [12] Hrubec, J. (1983). Operational reliability of machines I, Agricultural University of Nitra, 104 pages, ISBN 85-731-83.
- [13] Linczényi, A. (1973) Engineering Statistics, Alfa, Bratislava, 456 pages, ISBN 63-025-74.
- [14] Sinay, J., Bigoš, P., Bugár, T. (1989). Experimental methods and machine testing, Alfa, Bratislava, 232 pages, ISBN 082-737-89.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e4a14929-3b5c-41a2-9149-b03fe2137c9b