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Diagnostics and optimisation of crane track durability in metallurgical plant

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This paper deals with questions concerning technical diagnostics and optimisation of fatigue durability for the crane track beams installed in a metallurgical plant. The fatigue durability is determined using a strain gauge measurement in order to calculate the relevant residual durability of the crane track beams. Consequently, there are proposed suitable measures that are necessary with regard to the next operation of the given crane track, which is supporting a bridge crane.
Czasopismo
Rocznik
Strony
41--46
Opis fizyczny
Bibliogr. 22 poz., fot., rys., tab.
Twórcy
autor
  • Technical University of Košice, Faculty of Mechanical Engineering Letná 9, 042 00 Košice, Slovak Republik
  • Technical University of Košice, Faculty of Mechanical Engineering Letná 9, 042 00 Košice, Slovak Republik
autor
  • Technical University of Košice, Faculty of Mechanical Engineering Letná 9, 042 00 Košice, Slovak Republik
autor
  • Technical University of Košice, Faculty of Mechanical Engineering Letná 9, 042 00 Košice, Slovak Republik
Bibliografia
  • [1] Grega R., Homišin J., Puškár M., Kuľka J., Petróci J., Konečný B., Kršák B. 2015. „The chances for reduction of vibrations in mechanical system with low-emission ships combustion engines”. International Journal of Maritime Engineering 157 (A4): 235-240. ISSN 1479-8751.
  • [2] Bigoš P., Kuľka J., Mantič M., Čurilla J. 2011. „Influence of chemical-technological process on loading of the blast furnace shell”. Chemical Papers 105 (S): 641-644. ISSN 0009-2770.
  • [3] Sapietova A., Saga M., Novak P., et al. 2011. „Design and Application of Multi-software Platform for Solving of Mechanical Multi-body System Problems”. In. 9th International Conference “Mechatronice Location”: 345-354. Warsaw, Poland. 21-24 September 2011.
  • [4] Bigoš P., Kuľka J., Mantič M., Kopas M. 2015. „Comparison of local stress values obtained by two measuring methods on blast furnace shell”. Metalurgija 54 (1): 101-104. ISSN 0543-5846.
  • [5] Kuľka J., Mantič M. 2013. „Lifetime of crane ways from point of changing legislation”. Zdvíhací zařízení v teorii a praxi 2013 (1): 29-34. ISSN 1802-2812.
  • [6] Faltinová E., Kopas M. 2012. „Assessment of crane rail fatigue life in a particular metallurgical plant”. Zdvíhací zařízení v teorii a praxi 2012 (1): 25-30. ISSN 1802-2812.
  • [7] Mendrok K., Uhl T. 2010. „Load identification using a modified modal filter technique“. Journal of Vibration and Control. 16 (1): 89-105.
  • [8] Daneshjo N., Hlubeň D., Daneshjo E., Kopas M. 2011. Diagnostics, maintenance and reliability of machine manufacturing systems. Düsseldorf, Germany: Publisher Dr. Enayat Danishjoo. ISBN 978-3-00-035706-0.
  • [9] Schwarz B.J., Richardson M.H. 1999. Introduction to operating deflection shapes. Orlando, FL: CSI Reliability, Week.
  • [10] Bijen J. 2003. Durability of Engineering Structures: Design, Repair and Maintenance. Cambridge: CRC Press. ISBN-10: 0849317703.
  • [11] Haibach E. 1989. Betriebsfestigkeit. Düsseldorf: VDI-Verlag GmbH.
  • [12] Chopra A.K. 2011. Dynamics of structures. Prentice Hall, Upper Saddle River.
  • [13] Sága M., Vaško M. 2009. „Stress Sensitivity Analysis of the Beam and Shell Finite Elements”. Communications 11(2): 5-12. ISSN 1335-4205.
  • [14] Handrik M., Vaško M., Kopas P., Sága M. 2014. „Effective Finite Element Solution and Postprocessing for Wide Load Spectrum”. Communications 16 (3A): 19-26. ISSN 1335-4205.
  • [15] McDonald B., Ross B., Carnahan R. A. 2011. „The Bellevue crane disaster”. Engineering Failure Analysis 18(7): 1621-1636.
  • [16] Kovačević D., Budak I., Antić A., Nagode A., Kosec B. 2013. „FEM modeling and analysis in prevention of the waterway dredgers crane serviceability failure”. Engineering Failure Analysis. doi:10.1016/j.engfailanal.2012.10.009.
  • [17] Zhang Y., Zhao J., Yao J. 2011.”Static structural finite-element analysis of tower crane based on FEM”. CCIE 2011 - Proc. 2011 IEEE 2nd Int. Conf. Comput. Control Ind. Eng., 2: 220–3.
  • [18] Caglayan O., Ozakgul K., Tezer O., Uzgider E. 2010. “Fatigue life prediction of existing crane runway girders”. J Constr Steel Res 2010(66):1164-73.
  • [19] Rettenmeier P, Roos E, Weihe S. 2016. “Fatigue analysis of multiaxially loaded crane runway structures including welding residual stress effects”. Int. J. Fatigue, 82:179–87.
  • [20] Domazet Z, Lozina Z, Pirsic T, Architecture N. 2001. “Fatigue damage and repair of 250 kN portal crane in Shipyard”. ICF10, Honolulu, Hawaii.
  • [21] Marquez A.A, Venturino P., Otegui J.L. 2014. “Common root causes in recent failures of cranes”. Eng Fail Anal 39:55–64.
  • [22] McDonald B., Ross B., Carnahan R.A. 2011. “The Bellevue crane disaster”. Eng Fail Anal 18:1621-1636.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a2c466d6-dd97-4a20-be75-06edb8f2bc56
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