STUDY AND PREDICTION OF THE FATIGUE LIFE OF AISI 1045 STEEL STRUCTURES UNDER ROTATIONAL BENDING STRESSES

Citation:

YOUSFI H, Brioua M, Benbouta R. STUDY AND PREDICTION OF THE FATIGUE LIFE OF AISI 1045 STEEL STRUCTURES UNDER ROTATIONAL BENDING STRESSES. UPB scientific bulletin series d mechanical engineering [Internet]. 2022;84 (2).

Abstract:

Several difficulties and critical problems are facing the modern designers especially the unexpected damages. For such critical issues, the steel behavior’s investigation presents a significant point to predict fatigue life through avoiding sudden damage. An experimental study has been conducted to evaluate the AISI 1045 steel fatigue behavior using three specimens’ shapes: the first one is the conventional shape according to the ASTM E466-07 standard, the second one is performed in a notched shape, and the last specimen according to the pre-loading process. To complete the comparison among the three cases studied, a mandatory checking of the chemical compositions such as carbon content 0.45%, as well as the mechanical properties, have been investigated by preformed a tensile test in order to determine the maximum stress and the yield strength. The staircase method is employed to estimate and compare the endurance limit and its standard deviations for the three shapes. Moreover, and considered that the fatigue life expectancy of the AISI 1045 steel is a crucial step, the Stromeyer model has been proposed to predict the fatigue life which appears to be more effective, considering the average error for all cases compared to the experimental model.

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