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Tytuł artykułu

Effects of Nonlinearity on Bolt Forces for the Operational State of a Multi-bolted Connection

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Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In the paper modelling and calculations of an asymmetrical multi-bolted connection at the operational stage are presented. The physical model of the joint is based on a flexible flange element that is connected with a rigid support by means of linear spring elements, which substitute bolts. Between the flange element and the support, the linear Winkler model of a contact layer is taken into consideration. The multi-bolted system is preloaded and then subjected to an eccentric normal load. Influence of nonlinearity of the contact layer between joined elements on computational values of bolt forces has been investigated. Results of calculations for several different values of the joined element’s thickness are pointed out.
Rocznik
Tom
Strony
221--231
Opis fizyczny
Bibliogr. 13 poz., rys., tab., wykr.
Twórcy
autor
  • Katedra Mechaniki i Podstaw Konstrukcji Maszyn, Zachodniopomorski Uniwersytet Technologiczny, ul. Piastów 19, 70-310 Szczecin, phone: +48 91 449 49 69, fax: +48 91 449 45 64
Bibliografia
  • BOUZID A.H., CHAMPLIAUD H. 2003. On the use of dual kriging interpolation for the evaluation of the gasket stress distribution in bolted joints. Analysis of bolted joints, Proc. of the 2003 ASME Pressure Vessels and Piping Conference, Cleveland, Ohio, p. 77–83.
  • DOMINIKOWSKI S., BOGACZ P. 2009. Determination of internal forces in end plates of simple end plate joints. Technical Sciences, 12: 83–94.
  • GRZEJDA R. 2009. Modelling and analysis of a multi-bolted joint of a flange element fastened to a nonlinear spring layer. Doctor’s thesis, West Pomeranian University of Technology, Szczecin.
  • GRZEJDA R. 2013. Effects of nonlinearity of a contact layer between elements joined in a multi-bolted connection on preload values in bolts. Bulletin of the Military University of Technology, article in press.
  • KONOWALSKI K. 2009. Experimental research and modeling of normal contact stiffness and contact damping of machined joint surfaces. Advances in Manufacturing Science and Technology, 33(3): 53–68.
  • MISRA A., HUANG S. 2012. Micromechanical stress-displacement model for rough interfaces: Effect of asperity contact orientation on closure and shear behavior. International Journal of Solids and Structures, 49(1): 111–120.
  • SAWA T., IWAMOTO T., FUNADA K., OMIYA Y. 2003. FEM stress analysis and sealing performance in pipe flange connections with gaskets subjected to external bending moment (case where internal fluid is liquid). Analysis of bolted joints, Proc. of the 2003 ASME Pressure Vessels and Piping Conference, Cleveland, Ohio, p. 85–95.
  • WANG L., LIU H., ZHANG J., ZHAO W. 2013. Analysis and modeling for flexible joint interfaces under micro and macro scale. Precision Engineering, 37(4): 817–824.
  • WANG Y.H., THAM L.G., CHEUNG Y.K. 2005. Beams and plates on elastic foundations: a review. Progress in Structural Engineering and Materials, 7(4): 174–182.
  • WITEK A., GRZEJDA R. 2005. Analysis of a nonlinear multi-bolted joint loaded by a normal force. Archives of Mechanical Technology and Automation, 25(2): 211–219.
  • WITEK A., GRZEJDA R. 2006. An analysis of the preload of a nonlinear multi-bolted joint. Archives of Mechanical Technology and Automation, 26(2): 271–280.
  • YASTREBOV V.A., DURAND J., PROUDHON H., CAILLETAUD G. 2011. Rough surface contact analysis by means of the Finite Element Method and of a new reduced model. Comptes Rendus Mécanique, 339(7–8): 473–490.
  • ZIENKIEWICZ O.C., TAYLOR R.L. 2005. The finite element method for solid and structural mechanics. Elsevier Butterworth-Heinemann, Oxford.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e2753644-359b-4107-9c9d-8fb8173e9549
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