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Abstrakty
In the roller-raceway contacts of the radial cylindrical roller bearing used in the axle boxes of a railway bogie, pressure accumulation may occur, reducing the fatigue life. This accumulation can be eliminated by applying logarithmic correction of generators and in particular varieties of the modified logarithmic correction. The correction parameters should be adapted to the operating conditions of the bearing. This article presents a comparison of the predicted fatigue life of an axle box bearing on correctly selected correction parameters with bearing life, in which correction of roller generators was used, typical for cylindrical roller bearings of general application. The finite element method was used to determine the subsurface stress distributions necessary to calculate the fatigue life.
Czasopismo
Rocznik
Tom
Strony
53--61
Opis fizyczny
Bibliogr. 31 poz., il. kolor., 1 rys., wykr.
Twórcy
autor
- Department of Dynamics, Lodz University of Technology, Stefanowskiego 1/15, 90-537 Lodz, Poland
autor
- Department of Vehicles and Fundamentals of Machine Design, Lodz University of Technology, Stefanowskiego 1/15, 90-537 Lodz, Poland
Bibliografia
- [1] Krzemiński-Freda H.: Nośność styku korygowanego metodami przybliżonymi w wałeczkowych łożyskach tocznych, Tribologia, 6, 140-147, 1992.
- [2] Lundberg G.: Elastische Berührung zweier Halbräume, Forsch auf dem Gebiete des Ingenieurwesens Band 10, 5, 201-211, 1939.
- [3] Krzemiński-Freda H.: Correction of the generators of the main working surfaces of roller bearings, Arch. Bud.Maszyn, 37(1-2), 115-132, 1990.
- [4] Krzemiński-Freda H.: The logarithmic correction optimization of roller generators in roller bearings, Tribologia, 3, 56-62, 1992.
- [5] Products for railway applications, Schaeffler Technologies GmbH & Co. KG, 2010.
- [6] The Design of Rolling Bearing Mountings, Schaeffler Technologies AG & Co. KG, 2012.
- [7] Warda B.: Dobór parametrów logarytmicznej korekcji tworzącychwałeczkówłożyskamaźnicy, Logistyka, 6, 10858-64, 2014.
- [8] Warda B.: Wykorzystanie istniejących teorii zmęczenia powierzchniowego do prognozowania trwałości złożonych węzłów tocznych, Zeszyty Naukowe PŁ, 1055(386), 1-159, 2009.
- [9] Warda B., Chudzik A.: Fatigue life prediction of the radial roller bearing with the correction of roller generators, International Journal of Mechanical Sciences, 89, 299-310, 2014.
- [10] Zhao H.: Analysis of load distributions within solid and hollow roller bearings, J Tribol-T Asme,120,134-9, 1998.
- [11] Demirhan N., Kanber B.: Stress and displacement distribution on cylindrical roller bearingrings using FEM, Mech Based Des Struct, 36, 86-102, 2008.
- [12] Laniado-Jácome E., Meneses-Alonso J., Diaz-López V.: A study of sliding between rollers and races in a roller bearing with a numerical model for mechanical event simulations, Tribol Int, 43, 2175-82, 2010.
- [13] Golbach H.: Integrated non-linear FE module for rolling bearing analysis, INA reprint “Proceedings of NAFEMS WORLD CONGRESS ’99 on Effective Engineering Analysis”, 2, 112, 1999.
- [14] Kania L.: Modelling of rollers in calculation of slewing bearing with the use of finite elements, Mechanism and Machine Theory, 41, 1359-1376, 2006.
- [15] Blanusa V., Zeljkovic M., Milisavlevich B. M., Savic B.: Mathematical modelling of thermal behaviour of cylindrical roller bearing for towed railway vehicles, Tehnicki vjesnik, 24(Suppl. 1), 211-217, 2017.
- [16] Blanusa V., Zeljkovic M., Zivkovic A.: Prediction thermal elastic behavior of the cylindrical roller bearing for railway vehicles and calculating bearing life, Acta Tehnica Corviniensis - Bulletin of Engineering, 8(1), 22-26, 2015.
- [17] Ke Y., Ning W., Qiang Z., Yongsheng Z., Jinhua Z., Qingbo N.: Theoretical and experimental investigation on the thermal characteristics of double-row tapered roller bearings of high speed locomotive, International Journal of Heat andMass Transfer, 84, 1119-30, 2015.
- [18] Huang H-Z., Yu K., Huang T., Li H., Qian H-M.: Reliability estimation for momentum wheel bearings considering frictional heat, Eksploatacja i Niezawodnosc - Maintenance and Reliability, 22(1), 6-14, 2020.
- [19] Zhenhuan Y., Liqin W., Le G., Chuanwei Z.: Effects of tilted misalignment on loading characteristics of cylindrical roller bearings, Mechanism and Machine Theory, 69, 153-167, 2013.
- [20] ChengW.W., Shih S., Grace J., et al.: Axial load effect on contact fatigue life of cylindrical roller bearings, ASME Journal of Tribology, 126, 242-247, 2004.
- [21] Tong V. C., Kwon S. W., Hong S. W.: Fatigue life of cylindrical roller bearings, Proc IMechE Part J: J Engineering Tribology, 231, 623-636, 2016.
- [22] Benchea M., Iovan-Dragomir A., Cretu S.: Misalignment effects in cylindrical roller bearings, Applied Mechanics & Materials, 658-659, 277-282, 2014.
- [23] Kosmol J.: Extended model of angular bearing - influence of fitting and pre-deformation, Eksploatacja i Niezawodnosc - Maintenance and Reliability, 21(3), 493-500, 2019.
- [24] Shah Maulik J., Darji P. H.: Fatigue life improvement through reduction of edge pressure in cylindrical roller bearing using FE analysis, International Journal For Technological Research in Engineering, 1(10), 1069-74, 2014.
- [25] Xia X., Zhu S., Jia C., Niu R.: Study of interval of arc modification length of cylindrical roller using ANSYS, International Journal of Engineering and Science, 1(1), 8-13, 2012.
- [26] Xia X., Shang Y., Zhu S.: Effects of misalignment in cylindrical roller bearings on contact between roller and inner ring, IOSR Journal of Engineering, 3(5), 1-8, 2013.
- [27] Warda B., Chudzik A.: Effect of ring misalignment on the fatigue life of the radial cylindrical roller bearing, International Journal of Mechanical Sciences, 111-112, 1-11, 2016.
- [28] Chudzik A., Warda B.: Effect of radial internal clearance on the fatigue life of the radial cylindrical roller bearing, Eksploatacja i Niezawodnosc - Maintenance and Reliability, 21(2): 211-219, 2019.
- [29] Chudzik A.,Warda B.: Fatigue life prediction of a radial cylindrical roller bearing subjected to a combined load using FEM, Eksploatacja i Niezawodnosc -Maintenance and Reliability, 22(2): 212-220, 2020.
- [30] Lundberg G., Palmgren A.: Dynamic capacity of rolling bearings, Acta Polytech Scand Mech Eng, 1(3), 1-52, 1947.
- [31] Lundberg G., Palmgren A.: Dynamic capacity of roller bearings, Acta Polytech Scand Mech Eng, 2(4), 96-127, 1952.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-cce694c0-0c06-42bc-b71f-293ba957a180