Litcius/Paper detail

Fracture mechanics based fatigue life prediction for a weld toe crack under constant and variable amplitude random block loading—Modeling and uncertainty estimation

Davide Leonetti, Johan Maljaars, H.H. Snijder

2020Engineering Fracture Mechanics37 citationsDOIOpen Access PDF

Abstract

Propagation of weld toe cracks under cyclic loading is often predicted using fracture mechanics. In as welded condition, most of the propagation life is spent as a short crack, which is known to behave differently than a long crack. Several studies have been conducted with the aim of correlating the fatigue crack growth rate and the threshold condition of small cracks to the well known linear elastic crack driving force parameter ΔK, the stress intensity factor range. In many cases, the application of such models requires the quantification of material properties and model parameters that are difficult to obtain from tests, and therefore scarcely available. The present paper bypasses this inconvenience by making use of the square root of area, area, parameter proposed by Murakami. Successively, a linear elastic fracture mechanics based fatigue crack growth model is formulated for physically short and long cracks under constant and variable amplitude random block loading. The uncertainty of the model parameters is quantified in a frequentist statistical framework.

Topics & Concepts

Fracture mechanicsAmplitudeParis' lawStructural engineeringStress intensity factorFracture (geology)Vibration fatigueMechanicsConstant (computer programming)Materials scienceCrack closureEngineeringComputer scienceFatigue testingPhysicsComposite materialQuantum mechanicsProgramming languageFatigue and fracture mechanicsNon-Destructive Testing TechniquesUltrasonics and Acoustic Wave Propagation