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Fatigue crack growth behavior in additive manufactured Ti6Al4V alloy with intentionally embedded spherical defect

Dandan Ben, H.J. Yang, H.B. Ji, D.L. Lian, Lingshuai Meng, J. Chen, Junlan Yi, L. Wang, J. Th. M. De Hosson, Rui Yang, Zhifeng Zhang

2023Materials Science and Engineering A13 citationsDOIOpen Access PDF

Topics & Concepts

Materials scienceSelective laser meltingSofteningFatigue testingAlloyTitanium alloyParis' lawCrack closureStress intensity factorComposite materialStress concentrationFracture mechanicsMicrostructureStructural engineeringEngineeringAdditive Manufacturing Materials and ProcessesAdditive Manufacturing and 3D Printing TechnologiesWelding Techniques and Residual Stresses
Fatigue crack growth behavior in additive manufactured Ti6Al4V alloy with intentionally embedded spherical defect | Litcius