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Multifractal scaling law for high-cycle fatigue strength applied to aluminum alloy

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Fatigue strength of the material decreases with an increase in the cross sectional area of the specimen. Such phenomenon can be described phenomenologically applying the fractal approach, describing a change in the strength properties by applying the fractal dimension. With that approach involves modelling the damage of a material ligament. The damage size depends on the defects and microfractures in the object analysed. The effect of the disordered material microstructure on the mechanical properties is decreasing with an increase in the cross sectional area of the object. Bearing that in mind, the description of the size effect should use nonlinear scaling (multifractal scaling law). That approach was used for the results of high-cycle fatigue studies, for various aluminum alloys. Determining the model parameters facilitates the evaluation of fatigue life and strength for the plants with a different geometry than the specimens studied in the lab.
Słowa kluczowe
Rocznik
Strony
109--115
Opis fizyczny
Bibliogr. 8 poz., wykr.
Twórcy
  • University of Technology and Live Sciences in Bydgoszcz ul. Kaliskiego 7, 85-796 Bydgoszcz, Poland tel.: +48 52 3408202, fax: +48 52 3408245
autor
  • University of Technology and Live Sciences in Bydgoszcz ul. Kaliskiego 7, 85-796 Bydgoszcz, Poland tel.: +48 52 3408202, fax: +48 52 3408245
Bibliografia
  • [1] Brueggeman, W. C., Mayer., M. Jr., Axial fatigue tests at zero mean stress of 24S-T and 75S-T aluminum-alloy strips with a central circular hole, NACA, pp. 1-24, 1948.
  • [2] Carpinteri, A., Scaling laws and renormalization groups for strength and toughness of disordered materials, International Journal of Solids and Structures vol. 31 no. 3, pp. 291-302, 1994.
  • [3] Carpinteri, A., Chiaia, B., Multifractal scaling laws in the breaking behavior of disordered materials, Chaos, Solitons & Fractals vol. 8 no. 3, pp. 135-150, 1997.
  • [4] Carpinteri, A., Spagnoli, A., Size effect in S-N curves: A fractal approach to finite-life fatigue strength, International Journal of Fatigue 31, pp. 927-933, 2009.
  • [5] Carpinteri, A., Spagnoli, A., A fractal analysis of size effect on fatigue crack growth, International Journal of Fatigue 28, pp. 125-133, 2004.
  • [6] Hyler, W. S., Lewis, R. A., Grover, H. J., Experimental investigation of notch-size effects on rotating-beam fatigue behaviour of 75S-T6 aluminum alloy, NACA, pp. 1-48, 1954.
  • [7] Tomaszewski, T., Sempruch, J., Determination of the fatigue properties of aluminum alloy using mini specimen, Materials Science Forum 726, pp. 63-68, Switzerland 2012.
  • [8] Troshchenko, V. T., Sosnovskiy, L. A., Fatigue resistance of metals and alloys, Academy of Sciences of the Ukrainian SSR [in Russian], 1987.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-0a2f5304-6827-472b-8398-6c7fe4632acb
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