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Tytuł artykułu

Modeling of Fatigue Crack Growth in Shell Components with Circular Holes

Identyfikatory
Warianty tytułu
Konferencja
French-Polish Seminar of Mechanics (19 ; 8-11.06. 2011 ; Perpignan, France)
Języki publikacji
EN
Abstrakty
EN
Comparisons of numerical and analytical analyses of crack growth in shell components with a row of circular holes are presented in the paper. The analyses revealed inability of typical analytical models to accurately predict fatigue crack growth life of such components since the direct use of crack opening stresses from finite element calculations results in very conservative life assessments. Modification of analytical calculations has been proposed, in order to account for the effect of the material surrounding the holes on magnitude of calculated stress intensity factors. Application of a stress correction factor for analytical models resulted in a significant improvement of fatigue life assessments compared to numerical crack growth analyses. It was also shown that single edge crack should be analyzed using a double edge crack model with the same width, w, as the single edge crack model. Eventually, consideration was given to replacement of the actual crack opening stress distribution obtained from FE analyses with a simplified one. Analyses performed for the considered component with a wide range of hole diameters confirmed that such simplification results in a negligible decrease of predicted lives, and therefore can be used in engineering calculations.
Rocznik
Strony
121--132
Opis fizyczny
Bibliogr. 9 poz., wykr.
Twórcy
autor
Bibliografia
  • Glinka, G., Shen, G., 1991, Universal Features of Weight Functions for Cracks in Mode I. Engineering Fracture Mechanics, 40, No 6, 135-1146.
  • Jakubczak, H., Glinka, G., 2000-2010, FALPR - Interactive Software Package for Crack Growth Assessments.
  • Paris, P. C., Sih G. C., 1965, Stress Analysis of Cracks, Fracture Toughness and Testing and its Applications, American Society for Testing and Materials, Philadelphia, STP 381, 30-83.
  • Riveros, G. A., 2006, Numerical Evaluation of Stress Intensity Factors (KI) J-Integral Approach, US Army Corps of Engineers, ERDC/CHL CHETN-IX-16, 1-10.
  • Seweryn, A., 2003, Numerical Methods in Fracture Mechanics, IPPT PAN (in Polish).
  • Sih, G. C., 1974, Strain-Energy-Density Factor Applied to Mixed Mode Crack Problems, International Journal of Fracture Mechanics, 10, 305-321.
  • Tada, H., Paris, P. C., Irwin, G. R., 1973, The Stress Analysis of Cracks Handbook, Del Research Corporation, Hellertown, PA.
  • Tanaka, K., 1974, Fatigue Propagation From a Crack Inclined to the Cyclic Tensile Axis, Engineering Fracture Mechanics, 1974, 6, 493-507.
  • Wojciechowski, M., 2010, Analysis of Crack Growth in Complex Shape Components, Ph.D. Thesis, Warsaw University of Technology (in Polish).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BWA0-0056-0014
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