Litcius/Paper detail

Fatigue crack growth for through and part-through cracks in additively manufactured Ti6Al4V

Magnus Kahlin, Hans Ansell, Johan Moverare

2021International Journal of Fatigue19 citationsDOIOpen Access PDF

Abstract

Critical aerospace parts require damage tolerance analysis to determine the inspection intervals in-service. Such analyses, based on linear fracture mechanics, require that the fatigue crack growth (FCG) rate relation to the stress intensity factor range is applicable independent of geometry and stress. FCG rates for laser powder bed fusion Ti6Al4V material for conventional compact tension (CT) specimens have therefore been compared to FCG rates for specimens with a crack configuration more technically relevant from an industrial and engineering perspective. The FCG rates corresponded very well and data obtained with CT-specimens can therefore be considered relevant for general damage tolerance predictions.

Topics & Concepts

Paris' lawMaterials scienceDamage toleranceStress intensity factorAerospaceTitanium alloyStructural engineeringTension (geology)Linear elasticityComposite materialFracture mechanicsForensic engineeringCrack closureCompression (physics)EngineeringComposite numberAlloyFinite element methodAerospace engineeringAdditive Manufacturing Materials and ProcessesWelding Techniques and Residual StressesAdditive Manufacturing and 3D Printing Technologies