After a long process (somebody may recall I made also quite some chaos on imechanica to complain with the review process in a previous journal), this paper was accepted. Ask me a preprint if you are interested. I can attach here a few images only.
M. CIAVARELLA
Politecnico di Bari, 70125 Bari, Italy
Received in final form 13 June 2011
ABSTRACT In this note, we explore the possibility of simple extensions of the heuristic El Haddad formula for finite life, as an approximate expression valid for crack-like notches, and of the ‘Luk´aˇs and Klesnil’ equation for blunt notches. The key starting point is to assume, in analogy to the Basquin power-law SN curve for the fatigue life of the uncracked (plain) specimen, a power law for the ‘finite life’ intrinsic El Haddad crack size. The approach has similarities with what recently proposed by Susmel and Taylor as a Critical Distance Method for Medium-Cycle Fatigue regime. Reasonable agreement is found with the fatigue data of Susmel and Taylor for notches, and in particular the error seems smaller in finite life than for infinite life, where these equations are already used. In these respects, the present proposal can be considered as a simple empirical unified approach for rapid assessment of the notch effect under finite life.
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follow up implication in terms of a crack propagation law
The follow up implication in terms of a crack propagation law is the following
CRACK PROPAGATION LAWS CORRESPONDING TO A GENERALIZED EL HADDAD EQUATION
so it was finally published, after all
Article first published online: 1 AUG 2011
DOI: 10.1111/j.1460-2695.2011.01612.x
© 2011 Blackwell Publishing Ltd.
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Fatigue & Fracture of Engineering Materials & Structures
Early View (Online Version of Record published before inclusion in an issue)
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CIAVARELLA, M. (2011), A simple approximate expression for finite life fatigue behaviour in the presence of ‘crack-like’ or ‘blunt’ notches. Fatigue & Fracture of Engineering Materials & Structures. doi: 10.1111/j.1460-2695.2011.01612.x
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Politecnico di Bari, 70125 Bari, Italy
*Correspondence: M. Ciavarella. E-mail: mciava [at] poliba.it (mciava[at]poliba[dot]it)
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ABSTRACT
In this note, we explore the possibility of simple extensions of the heuristic El Haddad formula for finite life, as an approximate expression valid for crack-like notches, and of the ‘Lukáš and Klesnil’ equation for blunt notches. The key starting point is to assume, in analogy to the Basquin power-law SN curve for the fatigue life of the uncracked (plain) specimen, a power law for the ‘finite life’intrinsic El Haddad crack size. The approach has similarities with what recently proposed by Susmel and Taylor as a Critical Distance Method for Medium-Cycle Fatigue regime. Reasonable agreement is found with the fatigue data of Susmel and Taylor for notches, and in particular the error seems smaller in finite life than for infinite life, where these equations are already used. In these respects, the present proposal can be considered as a simple empirical unified approach for rapid assessment of the notch effect under finite life.
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