Tytuł artykułu

Application of the strip yield model to crack growth predictions for structural steel

Tytuł czasopisma

Archive of Mechanical Engineering




vol. 57


No 1


Słowa kluczowe

fatigue crack growth ; prediction model ; variable amplitude loading ; structural steel

Wydział PAN

Nauki Techniczne




Polish Academy of Sciences, Committee on Machine Building




Artykuły / Articles


DOI: 10.2478/v10180-010-0001-3 ; ISSN 0004-0738, e-ISSN 2300-1895


Archive of Mechanical Engineering; 2010; vol. 57; No 1; 5-20


A. Koning de (2004), The description of crack growth on the basis of the Strip Yield model for the computation of crack opening loads, the crack tip stretch and strain rates. ; Skorupa M., Skorupa A., Machniewicz T., Korbel A.: Calibration of the Strip Yield model for the predictions of crack growth in structural steel. Final report on the KBN project 4 T07C 018 26, AGH University of Science & Technology, Kraków 2007, (in Polish). ; Skorupa M. (2007), Application of the strip-yield model from the NASGRO software to predict fatigue crack growth in aluminium alloys under constant and variable amplitude loading, Engng Fract, 74, 291. ; Skorupa M. (2005), null. ; Skorupa M. (2005), Experimental results and predictions on fatigue crack growth in structural steel under variable amplitude loading, Int. Journal of Fatigue, 27, 1016. ; Pommier S. (2000), Bauschinger effect of alloys and plasticity-induced crack closure: a finite element analysis, Fatigue Fract Engng Mater Struct, 23, 129. ; Skorupa M. (2007), Applicability of the ASTM compliance offset method to determine crack closure levels for structural steel, Int. Journal of Fatigue, 29, 1434. ; Daniewicz S. (1994), A closed-form small-scale yielding collinear strip yield model for strain hardening materials, Engng Fract Mech, 49, 95. ; Skorupa M. (null), Experimental and theoretical investigation of fatigue crack closure in structural steel, null, 4/5, 2309. ; Machniewicz T.: Experimental analysis of fatigue crack closure in structural steel. PhD Thesis. AGH University of Science and Technology, Kraków 2003, Poland (in Polish). ; Pommier S. (2001), A study of the relationship between variable level fatigue crack growth and the cyclic constitutive behaviour of steel, Int. Journal of Fatigue, 23, ; Schijve J.: Private communication (2007). ; Lang M. (2000), A model for fatigue crack growth, Fatigue Fract. Engng Mater. Struct, 23, 587. ; Bos M. (2007), Development of an improved model for predicting fatigue crack growth in aluminium alloy helicopter airframe components.