NASA/TM-109044, NASA TECHNICAL MEMORANDUM: FATIGUE LIFE AND CRACK GROWTH PREDICTION METHODOLOGY (OCT-1993)

NASA/TM-109044, NASA TECHNICAL MEMORANDUM: FATIGUE LIFE AND CRACK GROWTH PREDICTION METHODOLOGY (OCT-1993)., The capabilities of a plasticity-induced crack-closure model and life-prediction code to predict fatigue crack growth and fatigue lives of metallic materials are reviewed. Crack-tip constraint factors, to account for three-dimensional effects, were selected to correlate large-crack growth rate data as a function of the effective-stress-intensity factor range (delta(K(sub eff))) under constant-amplitude loading. Some modifications to the delta(K(sub eff))-rate relations were needed in the near threshold regime to fit small-crack growth rate behavior and endurance limits. The model was then used to calculate small- and large-crack growth rates, and in some cases total fatigue lives, for several aluminum and titanium alloys under constant-amplitude, variable-amplitude, and spectrum loading. Fatigue lives were calculated using the crack growth relations and microstructural features like those that initiated cracks. Results from the tests and analyses agreed well.