Analysis of Impact of Chosen Parameters on the Wear of Camshft

• Autorzy: Burdzik R. , Konieczny Ł. , Stanik Z. , Folęga P. , Smalcerz A. , Lisiecki A.

Identyfikatory

DOI

10.2478/amm-2014-0161

Warianty tytułu

PL

Analiza wpływu wybranych parametrów na zużycie wałka rozrządu

• Języki publikacji: EN

Abstrakty

EN

The paper provides an analysis of the reasons for excessive wear of the camshafts system components based on models developed to describe the impact of selected material, technological and operational factors. The subject of the research was wear of camshaft cams studied in accordance with results of operation tests. Based on the said tests, the dependence of wear intensity of cams from their angular position was established. The respective calculation results enabled the function of cam fallibility to be determined.

PL

W artykule przedstawiono analizę przyczyn nadmiernego zużycia elementów układu rozrządu w oparciu o modele opracowane w celu opisania wpływu wybranego materiału, czynników technologicznych i operacyjnych. Przedmiotem badań było zużycie krzywek wałka rozrządu badanych zgodnie z wynikami badań eksploatacyjnych. Na podstawie tych prób ustalono zależność intensywności zużywania krzywki od ich położenia kątowego. Wyniki obliczeń pozwoliły wyznaczyć funkcję zużycia krzywki.

Słowa kluczowe

EN

metallographic structure; wearing; friction

PL

struktura metalograficzna; nanoszenie; tarcie

• Wydawca: Institute of Metallurgy and Materials Science of Polish Academy of Sciences ; Committee of Materials Engineering and Metallurgy of Polish Academy of Sciences
• Czasopismo: Archives of Metallurgy and Materials
• Rocznik: 2014
• Tom: Vol. 59, iss. 3
• Strony: 957--963
• Opis fizyczny: Bibliogr. 40 poz., rys.

Twórcy

autor

Burdzik R.

• Silesian University of Technology, Faculty of Transport, 8 Krasińskiego Str., 40-019 Katowice, Poland

autor

Konieczny Ł.

• Silesian University of Technology, Faculty of Transport, 8 Krasińskiego Str., 40-019 Katowice, Poland

autor

Stanik Z.

• Silesian University of Technology, Faculty of Transport, 8 Krasińskiego Str., 40-019 Katowice, Poland

autor

Folęga P.

• Silesian University of Technology, Faculty of Transport, 8 Krasińskiego Str., 40-019 Katowice, Poland

autor

Smalcerz A.

• Silesian University of Technology, Faculty of Materials Engineering and Metallurgy, 8 Krasińskiego Str., 40-019 Katowice, Poland

autor

Lisiecki A.

• Silesian University of Technology, Faculty of Mechanical Engineering, 18a Konarskiego Str., 40-100 Gliwice, Poland

Bibliografia

• [1] R. Burdzik, P. Folęga, B. Łazarz, Z. Stanik, J. Warczek, Analysis of the impact of surface layer parameters on wear intensity of frictional couples, Archives of Metallurgy and Materials 57 (4), 987-993 (2012).
• [2] L. Blacha, Bleientfernung aus kupferlegierungen im prozess der vakuumraffination, Archives of Materials and Metallurgy 48 (1), 105-127 (2003).
• [3] Z. Dąbrowski, P. Deuszkiewicz, Designing of high-speed machine shafts of carbon composites with highly nonlinear characteristics, Key Engineering Materials 490, 76-82 (2011).
• [4] A. Dąbrowska, P. Deuszkiewicz, A. Huczko, Nanokompozyty sic/żywica epoksydowa – nowy materiał kon-strukcyjnyw przemyśle jachtowym, Przegląd Mechaniczny 5, 2013.
• [5] Z. Dąbrowski, P. Deuszkiewicz, Nonlinear dynamic model of a carbon-epoxy composite structure, 20th International Congress On Sound & Vibration ICSV 20, Bangkok (2013).
• [6] A. Fornalczyk, M. Saternus, Platinum recovery from used auto catalytic converters in electrorefining process. Met-alurgija 52(2), 219-222 (2012).
• [7] J. Mańkowski, J. Osiński, P. Żach, Tension field in thin walled aeronautical girders, Mechanics And Mechanical Engineering 14 (2), 291-308 (2010).
• [8] W. Sitek, A mathematical model of the hardness of high-speed steels, Transactions Of Famena 34 (3), 39-46 (2010).
• [9] G. Siwiec, B. Oleksiak, A. Smalcerz, J. Wieczorek, Surface tension of Cu-Ag alloys, Archives of Materials and Metallurgy 58 (1), 193-195 (2013).
• [10] L. Blacha, R. Burdzik, A. Smalcerz, T. Matuła, Effects of pressure on the kinetics of manganese evaporation from the ot4 alloy, Archives Of Metallurgy and Materials 58 (1), 197-201 (2013).
• [11] B. Oleksiak, A. Blacha-Grzechnik, G. Siwiec: Application of the flotation process in the silver recovery from the wastes generated during the silvery semi-products manufacturing. Met-alurgija 51 (3), 298-300 (2012)
• [12] B. Oleksiak, L. Blacha, Kinetics of lead removal from the cu-pb-fe alloy by barbotage with inert gases, Metalurgija 50 (2), 89-92 (2011).
• [13] A. Smalcerz, R. Przyłucki, Electromagnetic field analysis of inductor-robot-work-piece system, Metalurgija 52 (2), 223-226 (2013).
• [14] A. Karbownik, K. Dohn, K. Sienkiewicz-Malyjurek, Value chain analysis of environmental management in urban – case study, Metaropolitan association of Upper Silesia, Polish Journal of Environmental Studies 21, 911-921 (2012).
• [15] A. Kaźmierczak-Bałata, J. Bodzenta, D. Trefon-Radziejewska, Determination of thermal-diffusivity dependence on temperature of transparent samples by thermal wave method, International Journal of Thermophysics 31 (1), 180-186 (2010).
• [16] M. Dzida, S. Jężak, J. Sumara, M. Żarska, P. Góralski, High pressure physicochemical properties of 963 biodiesel components used for spray characteristics in diesel injection systems. Fuel 111, 165-171 (2013).
• [17] M. Dzida, P. Prusakiewicz, The effect of temperature and pressure on the physicochemical properties of petroleum diesel oil and biodiesel fuel. Fuel 87, 1941-1948 (2008).
• [18] A. Lisiecki, Welding of titanium alloy by Disk laser. Proceedings of SPIE, Laser Technology, Applications of Lasers 87030 (2013).
• [19] T. Węgrzyn, D. Hadryś, M. Miros, Optimization of Operational Properties of Steel Welded Structures, Maintenance and Reliability 3 (2010).
• [20] T. Węgrzyn, J. Mirosławski, A. Silva, D. Pinto, M. Miros, Oxide inclusions in steel welds of car body, Materials Science Forum 636-637 (2010).
• [21] A. Lisiecki, Diode laser welding of high yield steel. Proceedings of SPIE, Laser Technology, Applications of Lasers 8703, 22 (2012).
• [22] T. Węgrzyn, Mathematical Equations of the Influence of Molybdenum and Nitrogen in Welds. Conference of International Society of Offshore and Polar Engineers ISOPE’ 2002, Kita Kyushu, Japan 2002, Copyright by International Society of Offshore and Polar Engineers, vol.IV, ISBN 1-880653-58-3, Cupertino - California - USA 2002.
• [23] T. Węgrzyn, The Classification of Metal Weld Deposits in Terms of the Amount of Oxygen, Proceedings of the Conference of International Society of Offshore and Polar Engineers ISOPE’99, Brest, France 1999, International Society of Offshore and Polar Engineers, vol.IV, Cupertino - California, USA, 212-216 (1999).
• [24] T. Węgrzyn, J. Piwnik, A. Silva, M. Plata, D. Hadryś, Microjet technology in welding, The 23-Rd (2013) International Ocean (Offshor) And Polar Engineering Conference, proceedings of isope-2013 Anchorage, Alaska, USA, 178-180 (2013).
• [25] T. Węgrzyn, J. Piwnik, R. Wieszala, D. Hadryś, Control over the steel welding structure parameters by micro-jet cooling, Archives Of Metallurgy And Materials 57(3), 679-684 (2012).
• [26] R. Burdzik, Ł. Konieczny, T. Figlus, The possibility to control and adjust the suspensions of vehicles„ J. Mikulski (Ed.): Activities of Transport Telematics, TST, CCIS 395, 378-383 (2013).
• [27] R. Burdzik, Research on the influence of engine rotational speed to the vibration penetration into the driver via feet -multidimensional analysis, Journal of Vibroengineering 15(4), 2114-2123 (2013).
• [28] R. Burdzik, Identification of structure and directional distribution of vibration transferred to car-body from road rough-ness, submitted to Journal of Vibroengineering 16(1), 324-333 (2014).
• [29] R. Burdzik, Z. Stanik, J. Warczek, Method of assessing the impact of material properties on the propagation of vibrations excited with a single force impulse, Archives of Materials and Metallurgy 57(2), 409-416 (2012).
• [30] K. Ragulskis, K. Kanapeckas, R. Jonušas, K. Juzénas, Vibrations generator with a motion converter based on permanent magnet interaction, Journal of Vibroengi-neering 12(1), 124-132 (2010).
• [31] M. Ragulskis, V. Kravčenkiene, K. Pilkauskas, R. Maskeliunas, L. Zubavičius, P. Paškevičius, Calculation of stresses in the coating of a vibrating beam, Journal of Vibroengineering 11(4), 707-711 (2009).
• [32] R. Michalski, S. Wierzbicki, An analysis of degradation of vehicles in operation. Maintenance and Reliability 1(37), 30-32 (2008).
• [33] B. Pojawa, Tests of LM2500 naval gas turbine with the objective of determining its operating characteristics, Diagnos-tyka – Diagnostics and Structural Health Monitoring 4(60), 65-70 (2011).
• [34] A. Wilk, H. Madej, T. Figlus, Analysis of the possibility to reduce vibroactivity of the gearbox housing. Eksploatacjai Niezawodność – Maintenance and Reliability 2(50), 42-49 (2011).
• [35] R. Zimroz, J. Urbanek, T. Barszcz, W. Bartelmus, F. Milioz, N. Martin, Measurement of instantaneous shaft speed by advanced vibtation signal processing – application to wind turbine gearbox. Metrology and Measurement Systems 18(4), 701-711 (2011).
• [36] D. Dąbrowski, W. Batko, W. Cioch, Model of the Gears Based on Multibody System and Its Validation by Application of Non-Contact Methods, Acta Physica Polonicaa, 123 (6), 1016-1019 (2013).
• [37] A. Grządziela, Modelling of propeller shaft dynamics at pulse load, Polish Maritime Research 15 (4), 52-58 (2008).
• [38] M. Kłaczyński, T. Wszołek, Artificial intelligence and learning systems methods in supporting long-term acoustic climate monitoring. Acta Physica Polonicaa, 123 (6), 1024-1028 (2013).
• [39] M. Kłaczyński, T. Wszołek, Detection and classification of selected noise sources in long-term acoustic climate monitoring. Acta Physica Polonicaa, 121 (1-A), 179-182 (2012).
• [40] W. Zwierzycki et al., Selected aspects of material wear in slide friction pairs, PWN, Warsaw-Poznań, (1990) (in Polish).