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On the fatigue crack growth behaviour of selective laser melting fabricated Inconel 625: Effects of build orientation and stress ratio

Xiaoan Hu, Zhiyuan Xue, Tingting Ren, Yun Jiang, Chengli Dong, Fencheng Liu

2020Fatigue & Fracture of Engineering Materials & Structures37 citationsDOI

Abstract

Abstract The building of Inconel 625 material was carried out using the selective laser melting method, and its fatigue crack growth property at ambient temperature was experimentally investigated. Compact‐tension specimens with different building orientations were utilized to determine the stress intensity factor threshold and fatigue crack growth rate curves at different stress ratios ( R ). The results indicated that the fatigue crack growth properties in the near threshold stress intensity factor and Paris regions were greatly affected by the loading factor, as well as the orientation of the alloy. The mechanism of fatigue crack growth at different stages was observed and discussed using scanning electron microscopy. Finally, based on the framework of the linear elastic fracture, a new and applicable effective driving force factor range was introduced to replace the traditional stress intensity factor range (Δ K ) with good accuracy for all of the fatigue crack growth test data, considering both the stress ratio and orientation.

Topics & Concepts

Materials scienceSelective laser meltingParis' lawStress intensity factorInconel 625InconelCrack closureStress concentrationStress (linguistics)Composite materialFracture (geology)AlloyStructural engineeringMetallurgyFracture mechanicsMicrostructureEngineeringPhilosophyLinguisticsAdditive Manufacturing Materials and ProcessesAdditive Manufacturing and 3D Printing TechnologiesWelding Techniques and Residual Stresses
On the fatigue crack growth behaviour of selective laser melting fabricated Inconel 625: Effects of build orientation and stress ratio | Litcius