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Purpose: The article deals with the modernization of the Amsler experimental machine. Modernization includes implementation of sensors for measuring the friction moment, the normal load and temperature; application of electronic components for measurement and graphical evaluation of tribological data. Design/methodology/approach: In order to reach the goals further actions were provided: • Substitution and elimination of mechanical measuring unit with sensors and application of MATLAB/Simulink, • Implementation of computer for data processing and analyzing. Findings: Records of tribological parameters were digitized using data acquisition card with MATLAB/Simulink and saved to a file processed in Matlab and transferred again to Simulink. To filter the records, the simulation scheme was designed in which low-pass filter was proposed by instrument FDA to monitor changes in the tribological characteristics. Applied modernization enables the increase of precision and effectiveness of measurements e.g. measurement of friction coefficient and temperature of lubricant and contacting tribopairs in the conditions of determined load. To change the sliding velocity the speed frequency converter was designed and connected. Research limitations/implications: Analyzed modernization of the machine refers to pin on disc, disc-disc, block and disc unit sliding friction processes. Practical implications: The possibilities of data processing and preserving in tribological research. Originality/value: Designed and structurally modernized measuring system of the Amsler tribometer should ensure continuous recording of tribological characteristics in required output. Results of this research can be used for study of contact fatigue and properties of lubricant, especially on friction pairs systems, sliding friction models, in extend given: • Selection of materials for friction pair elements, • Analysis of research on friction and materials under sliding and wear processes, • Lubricant selection for specified tribological system.
Wydawca
Rocznik
Tom
Strony
321--326
Opis fizyczny
Bibliogr. 21 poz., rys.
Twórcy
autor
- Technical University of Košice, Mäsiarska 74, 040 01 Košice, Slovakia
autor
- Technical University of Košice, Mäsiarska 74, 040 01 Košice, Slovakia
autor
- Technical University of Košice, Mäsiarska 74, 040 01 Košice, Slovakia
Bibliografia
- [1] D. Klaffke, Fundamentals of tribotesting, Tribotest 6/4, (2000) 373-385.
- [2] J. Martin, M. Belin, New trends in analytical tribology, Thin Solid Films 1 (1993) 173-179.
- [3] B. Bhushan, B.K. Gupta, Handbook of Tribology, Materials, Coatings, and Surface Treatments, McGraw-Hill, New York, 1991.
- [4] B. Bhushan, Introduction to Tribology. Chichester, J.Wiley, 2002.
- [5] MVTS COST 532-M7, Triboscience and Tribotechnology: Superior Friction and Wear Control in Engines and Transmissions, 2003-2007, Study of mechanisms of failure in contact fatigue processes of duplex treated steels.
- [6] VEGA1/0390/08: 2008-2010, Research of tribological properties of DLC coatings in conditions of contact fatigue in dependence on load.
- [7] G.W. Stachowiak, A.W. Batchelor, G.B. Stachowiak, Experimental Methods in Tribology, Elsevier (2004) 372.
- [8] A.D. Dobrzańska-Danikiewicz, The state of the art analysis and methodological assumptions of evaluation and development prediction for materials surface technologies, Journal of Achievements in Materials and Manufacturing Engineering 49/2 (2011) 121-141.
- [9] M. Polok-Rubiniec, L.A. Dobrzański, M. Adamiak, Comparison of the PVD coatings deposited onto plasma nitrited steel, Journal of Achievements in Materials and Manufacturing Engineering 42/1-2 (2010) 172-179.
- [10] E. Zdravecká, V.M.Tiainen, Y.T.Konttinen, L. Franta, M. Vojs, M. Marton, M. Ondáč, J.Tkáčová, Relationships between the fretting wear behavior and mechanical properties of thin carbon films, Vacuum (2011) 1-6.
- [11] B.F. Yousif, Design of newly fabricated tribological machine for wear and frictional experiments under dry/wet condition, Materials and Design 48 (2013) 2-13.
- [12] K. Lenik, M. Paszeczko, K. Dziedzic, M. Barszcz, The range of applications of modernised Amsler machine in tribological examination, Journal of Achievements in Materials and Manufacturing Engineering 21/2 (2007) 93-96
- [13] M. Kľúčik, L. Jurišina, Návrh mechatronických systémov (Design of mechatronics systems), ATP Journal Plus 1 (2007) 317-329.
- [14] A. Gmiterko, Mechatronika, Emiliena, Košice. 2004.
- [15] D. Hroncová, P. Šarga, A. Gmiterko, Simulácia mechanického systému v Matlab/Simulink a SimMechanics, ATP Journal PLUS 1/2012 33-38.
- [16] E. Zdravecká, A. Gmiterko, J. Tkáčová, Matlab and Simulink in the area of tribology, Acta Mechanica Slovaca 12/3 (2008) 513-516,
- [17] E. Zdravecká, Š. Perháč,V. Jančo, J.Tkáčová, Š. Fecsu, Aplikácia systému Matlab pri modernizácii tribometra, Proceedings of the X. Medzinárodné sympózium Intertribo (2009) 139-140.
- [18] J. Tkáčová, Š. Perháč, Evaluation of temperature during tribological processes, MITECH 2008, Praha, 2008, 220-222.
- [19] M. Ondáč, E. Zdravecká, Š. Fescu, Spracovanie a analýza signálov tribologických charakteristík, ATP journal 6/2010, 56-58.
- [20] J. Pazourek, Simulace biologických systémů, Grada, 1992, Praha .
- [21] M. Žalman, Akčné členy, STU, 2003, Bratislava.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8a74fa37-4abf-44a2-bd68-79bbfcbcda92