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Fatigue of Aircraft Structures

The Journal of Institute of Aviation

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2300-7591
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Analysis of the Quasi-Static Riveting Process for 90° Countersunk Rivet

Jerzy Kaniowski / Wojciech Wronicz
Published Online: 2013-04-30 | DOI: https://doi.org/10.2478/v10164-012-0065-2
  • [1] Muller R.( 1995). An Experimental and Analytical Investigation on the Fatigue Behaviour ofFuselage Riveted Lap Joint. Ph.D. thesis, TU Delft, Netherlands.Google Scholar

  • [2] Müller R. P.G., Hart-Smith L.J.: Making fuselage riveting lap splices with 200-year crackfreefatigue life. ICAF 97` Fatigue in new and ageing aircraft. Proceedings of the 19th Symposium of the International Committee of Aeronautical Fatigue1997, Edinburgh, EMAS Publishing, pp. 499-522.Google Scholar

  • [3] Simenz R. F., Steinberg M. Alloy Needs and Design: the Airframe, In Fundamental Aspectsof Structural Alloy Design. Proceeding of the 10th Battelle Colloquium in the Materials Science, Jaffee R. I., Wilcox B. (Ed), A, PLENUM PRESS, New York and London 1977.Google Scholar

  • [4] Dębski M. (1995). Metoda oceny trwałości zmęczeniowej struktur nośnych samolotów(Methods of Fatigue Life estimation of Airframes). PhD thesis, PW Warszawa, Poland.Google Scholar

  • [5] Kaniowski J. (1998). Badania wpływu geometrycznych cech konstrukcyjnych na trwałośćzmęczeniową na przykładzie skrzydła samolotu PZL I-22 Iryda (The Study of the Influence ofGeometric Features on the Fatigue Durability on the Example of the PZL I-22 IRYDA PlaneWing). PhD thesis, ATR Bydgoszcz, Poland.Google Scholar

  • [6] Skorupa M, Skorupa A, Michniewicz T, Korbel A. Effect of production variables on the fatigue behaviour of riveted lap joint. International Journal of Fatigue, 32 (2010), pp. 996-1003Google Scholar

  • [7] Wronicz W., Kaniowski J., Experimental and Numerical Study of Strain Progress During and After Riveting Process for Brazier Rivet and Rivet with Compensator - squeezing force and rivet type effect. In A. Niepokólczycki (Ed.), Fatigue of Aircraft Structures, ISSUE 2011 (pp. 165-189). Warsaw: Institute of Aviation Scientific Publication.Google Scholar

  • [8] Gadalińska E., Wronicz w., Kaniowski J., Korzeniewski B.: Calculation and Experimental Verification of Residual Stresses in Riveted Joints Used in an Airframe. In A. Niepokólczycki (Ed.), Fatigue of Aircraft Structures, ISSUE 2010 (pp. 23-36). Warsaw: Institute of Aviation Scientific Publication. ,Google Scholar

  • [9] Skorupa M., Skorupa A., Machniewicz T., Korbel A.: An Experimental Investigation on theFatigue Performance of Riveted Lap Joints. ICAF2009, Bridging the Gap between Theory and Operational Practice. Proceedings of the 25th Symposium of the Int. Committee on Aeronautical Fatigue, Rotterdam, The Nederlands, 27-29 May 2009. Editor M.J. Bos, Springer, 2009, pp. 449-474.Google Scholar

  • [10] Szala J.(Ed.), Boroński D., Lipski A, Mroziński S. Metody doświadczalne w badaniachmateriałów stosowanych na poszycia samolotów i połączeń nitowych. Wybrane zagadnienia(Experimental Methods in Test of Materials for Aircraft Skin and Riveted Joint. SelectedProblems). Wydawnictwa Naukowe Instytutu Technologii i Eksploatacji - PIB w Radomiu, Radom, 2010, ISBN 978-83-7204-950-6.Google Scholar

  • [11] Szymczyk E., Jachimowicz J., Sławiński G., Derewońko A., Influence of technologicalimperfections on residual stress fields in riveted joint. Dissipation and Damage across Multiple Scales in Physical and Mechanical Systems, Oxford, United Kingdom, 2009, 1, 118, pp. 1-4.Google Scholar

  • [12] Papuga J. (2010). Fatigue Prediction Based on Finite Element Analysis of Riveted Joints. Czech Aerospace Proceedings, Journal For Czech Aerospace Research, No. 3,Vol. 2010, pp. 27-31.Google Scholar

  • [13] Fárek J. (2010). FE-Modelling Methodology of Riveted Joints. Czech Aerospace Proceedings. Journal For Czech Aerospace Research, No 2/2010, pp. 12-16.Google Scholar

  • [14] Langrand B., Patronelli L., Deletombe E., Markiewicz E., Drazétic P., An alternative numerical approach for full scale characterisation for riveted joint design. Aerospace Scienceand Technology, Vol 6, 2002, pp. 343-354.Google Scholar

  • [15] Li G., Shi G., Berlinger N.C., Studies of Residual Stress in Single-Row Countersunk RivetedLap Joints. 46th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics & Materials Conference 18 - 21 Apr 2005, Hyatt Regency Austin, Austin, TexasGoogle Scholar

  • [16] ASM Handbook, Volume 18, Friction, Lubrication, and Wear Technology,1995.Google Scholar

  • [17] Stojman I.M.: Cholodnaja svarka metallov. Mašinostrojenie,1985, pp.38 and 51.Google Scholar

  • [18] Sachackij G.P.: Technologia svarki metellov w cholodnom sostojanii, Naukowa Dumka 1979, p.111.Google Scholar

About the article

Published Online: 2013-04-30

Published in Print: 2012-12-01


Citation Information: Fatigue of Aircraft Structures, ISSN (Online) 2300-7591, DOI: https://doi.org/10.2478/v10164-012-0065-2.

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