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Dynamic responses of a gantry crane system due to a moving body considered as moving oscillator

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This paper discusses a combined finite element and analytical method for obtaining transverse and longitudinal vibrations of a gantry crane system subjected to an elastically suspended moving body. The two-dimensional inertial effects of the moving body are included in derivation of differential equation of motion for the system. Factors as speed, acceleration and suspension characteristics of a moving body are studied, including the influence of structural damping. The obtained results validate the presented approach and can be used in the design process of gantry cranes.
Rocznik
Strony
243--250
Opis fizyczny
Bibliogr. 26 poz., rys., wykr.
Twórcy
autor
  • University of Belgrade, Faculty of Mechanical Engineering, Kraljice Marije 16, 11120 Belgrade 35, Serbia
  • University of Belgrade, Faculty of Mechanical Engineering, Kraljice Marije 16, 11120 Belgrade 35, Serbia
  • University of Belgrade, Faculty of Mechanical Engineering, Kraljice Marije 16, 11120 Belgrade 35, Serbia
Bibliografia
  • [1] S. Bošnjak, N. Zrnić, V. Gašić, Z. Petković, A. Simonović, External load variability of multibucket machines for mechanization, Advanced Materials Research 422 (2012) 678–683.
  • [2] S. Bošnjak, Z. Petković, N. Zrnić, S. Petrić, Mathematical modeling of dynamic processes of bucket wheel excavators, in: Proc. 5th MATHMOD, ARGESIM Report, 4.1–4.10, ARGESIM Verlag, Vienna, 2006.
  • [3] S. Bošnjak, N. Zrnić, D. Oguamanam, On the dynamic modelling of bucket wheel excavators, FME Transactions 34 (4) (2006) 221–226.
  • [4] J. Czmochowski, P. Moczko, Numerical–experimental analysis of bucket wheel excavator body vibrations, in: Proc. 22nd Danubia-Adria Symposium of Experimental Methods in Solid Mechanics, Italian Association for Stress Analysis, Monticelli Terme-Parma, Italy, (2005), pp. 294–295.
  • [5] E. Rusiński, S. Dragan, P. Moczko, D. Pietrusiak, Implementation of experimental method of determining modal characteristics of surface mining machinery in the modernization of the excavating unit, Archives of Civil and Mechanical Engineering 4 (12) (2012) 471–476.
  • [6] E. Rusiński, J. Czmochowski, D. Pietrusiak, Problems of steel construction modal models identification, Eksploatacja i Niezawodnosc (Maintenance and Reliability), 14 (1) (2012) 54–61.
  • [7] J. Gottvald, The calculation and measurement of the natural frequencies of the bucket wheel excavator SchRs 1320/4x30, Transport 25 (2010) 269–277.
  • [8] J. Hartleb, M. Ketting, Stable algorithm to simulate dynamic undercarriage loads of tracked vehicles, Archives of Civil and Mechanical Engineering 11 (4) (2011).
  • [9] S. Bošnjak, N. Zrnić, A. Simonović, D. Momčilović, Failure analysis of the end eye connection of the bucket wheel excavator portal tie-rod support, Engineering Failure Analysis 16 (3) (2009) 740–750.
  • [10] E. Rusiński, J. Czmochowski, A. Iluk, M. Kowalczyk, An analysis of the causes of a BWE counterweight boom support fracture, Engineering Failure Analysis 17 (1) (2010) 179–191.
  • [11] S. Bošnjak, N. Zrnić, Dynamics, failures, redesigning and environmentally friendly technologies in surface mining systems, Archives of Civil and Mechanical Engineering 12 (2012) 348–359.
  • [12] N. Zrnić, K. Hoffmann, S. Bošnjak, Modelling of dynamic interaction between structure and trolley for mega container cranes, Mathematical and Computer Modelling of Dynamical Systems 15 (3) (2009) 295–311.
  • [13] N. Zrnić, Z. Petković, S. Bošnjak, Automation of ship-to-shore container cranes: a review of state-of-the art, FME Transactions 33 (3) (2005) 111–121.
  • [14] N. Zrnić, D. Oguamanam, S. Bošnjak, Dynamics and modelling of mega quayside container cranes, FME Transactions 34 (4) (2006) 193–198.
  • [15] S. Bošnjak, N. Zrnić, B. Dragović, Dynamic response of mobile elevating work platform under wind excitation, Strojniški Vestnik (Journal of Mechanical Engineering), 55 (2) (2009) 104–113.
  • [16] B. Jerman, P. Podržaj, J. Kramar, An investigation of slewing-crane dynamics during slewing motion-development and verification of a mathematical model, International Journal of Mechanical Sciences 46 (2004) 729–750.
  • [17] D. Oguamanam, J. Hansen, Dynamic response of an overhead crane system, Journal of Sound and Vibration 213 (5) (1998) 889–906.
  • [18] N. Zrnić, S. Bošnjak, K. Hoffmann, Parameter sensitivity analysis of non-dimensional models of quayside containercranes, Mathematical and Computer Modelling of Dynamical Systems 16 (2) (2010) 145–160.
  • [19] N. Zrnić, V. Gašić, A. Obradović, S. Bošnjak, Appropriate modeling of dynamic behavior of quayside container cranes boom under a moving trolley, in: Springer Proceedings in Physics 139 Vibration Problems ICOVP 2011, Springer, 2011, pp. 81–86.
  • [20] V. Gašić, N. Znić, M. Rakin, Consideration of a moving mass effect on dynamic behaviour of a jib crane structure, Tehnički Vjesnik (Technical Gazette), 19 (1) (2012) 115–121.
  • [21] V. Gašić, N. Zrnić, A. Obradović, S. Bošnjak, Consideration of moving oscillator problem in dynamic responses of bridge cranes, FME Transactions 39 (1) (2011) 17–24.
  • [22] C. Spyrakos, J. Raftoyiannis, Linear and Nonlinear Finite Element Analysis in Engineering Practice, Algor Inc. Publishing Division, 1997, pp. 6–13.
  • [23] J.S. Przemieniecki, Theory of Matrix Structural Analysis, McGraw-Hill, New York, 1985.
  • [24] R.W. Clough, J. Penzien, Dynamics of Structures, McGraw- Hill, New York, 1993.
  • [25] J.J. Wu, Transverse and longitudinal vibrations of a frame structure due to a moving trolley and the hoisted object using moving finite element, International Journal of Mechanical Sciences 50 (2008) 613–625.
  • [26] K.J. Bathe, Finite Element Procedures in Engineering Analysis, Prentice-Hall, NewYork, 1982.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3ade7717-4a9e-41d9-8c9a-80a2d2f810c1
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