Discussion

Discussion

Article Type: Discussion From: International Journal of Structural Integrity, Volume 2, Issue 3

Yasuaki Hashikura, Koji Takahashi, Yuji Miyazaki, Keiji Houjou, Kotoji Ando, (2010) “Overloading effect on the fatigue threshold stress intensity factor range (ΔK_th) as a function of crack length in SUS316”, International Journal of Structural Integrity, Vol. 1 No. 1, pp. 43-51

The International Journal of Structural Integrity has published the above paper in its first issue on pages 43-51. The paper presents useful experimental results on the effect of overloading on the threshold stress intensity factor range, ΔK_th, in SUS316. In discussing the above experimentally found effect, the authors have predicted ΔK_th by deriving a model, see equation (7), based on the residual SIF, K_r, as given by equation (5). Based on that model, ΔK_th for a given overload ratio, ∝, can be predicted as follows. The terminology used in the paper will be adopted here together with the numbers given to the equations. From equations (4) and (6), a/b=cos(πσ_OV/4σ_y). The base load at the threshold condition is σ_th and, hence, equation (5) becomes:

Then, equation (7) becomes:

The threshold SIF range is, then, given by the following expression:

With increasing α, there is a corresponding increase in 34σ_th and, hence, the term αsec(πασ_th/4σ_y) increases. Thus, equation (b) predicts an infinite value of ΔK_th taking place at a certain value of α,=α_c. Based on equation (b), α_c is close to 2. With a value of α>α_c equation (b) gives a negative ΔK_th value. The paper reports experimental results for α much higher than α_c.Mechanical Engineering Department, Al Azhar University, Cairo, Egypt

M.M.I. Hammouda