Construction of Kitagawa-Takahashi Diagrams as a Function of Applied Stress Ratio

Abstract

Abstract Construction of the Kitagawa-Takahashi (K-T) diagram requires inputs of two material properties, namely, endurance limit and threshold stress intensity range, ΔKth. Both are sensitive to applied stress ratio. The effect of stress ratio on endurance limit is well known. Unfortunately, crack closure, associated with the nature of conventional testing practice obscures the effect of stress ratio on intrinsic, closure free ΔKth that would apply to natural crack like defects and short cracks. This study was made possible by the development of a new test method to characterize closure free threshold conditions under controlled near-tip residual stress conditions that essentially determine near-tip stress ratio at threshold. A procedure is described to construct the K-T diagram, using ΔKth values corrected for stress ratio and applicable to pre-existing defects and short cracks at notches that are unlikely to see closure. As a case study, a K-T diagram valid for different applied stress ratios is constructed for titanium alloy Ti-6Al-4V.